dci_tools_ue.c 200 KB
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/*
 * Licensed to the OpenAirInterface (OAI) Software Alliance under one or more
 * contributor license agreements.  See the NOTICE file distributed with
 * this work for additional information regarding copyright ownership.
 * The OpenAirInterface Software Alliance licenses this file to You under
 * the OAI Public License, Version 1.1  (the "License"); you may not use this file
 * except in compliance with the License.
 * You may obtain a copy of the License at
 *
 *      http://www.openairinterface.org/?page_id=698
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 *-------------------------------------------------------------------------------
 * For more information about the OpenAirInterface (OAI) Software Alliance:
 *      contact@openairinterface.org
 */

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/*! \file PHY/LTE_UE_TRANSPORT/dci_tools_ue.c
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 * \brief PHY Support routines (eNB/UE) for filling PDSCH/PUSCH/DLSCH/ULSCH data structures based on DCI PDUs generated by eNB MAC scheduler.
 * \author R. Knopp
 * \date 2011
 * \version 0.1
 * \company Eurecom
 * \email: knopp@eurecom.fr
 * \note
 * \warning
 */

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#include "PHY/defs_UE.h"
#include "PHY/phy_extern_ue.h"
#include "SCHED_UE/sched_UE.h"
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#ifdef DEBUG_DCI_TOOLS
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#include "PHY/phy_vars.h"
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#endif
#include "assertions.h"


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//#define DEBUG_HARQ
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#include "LAYER2/MAC/mac.h"
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//#define DEBUG_DCI
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#include "../LTE_TRANSPORT/dci_tools_common_extern.h"
#include "../LTE_TRANSPORT/transport_proto.h"
#include "transport_proto_ue.h"
#include "../LTE_TRANSPORT/transport_common_proto.h"
#include "SCHED/sched_common.h"
 
extern uint16_t beta_cqi[16];
extern uint16_t beta_ri[16];
extern uint16_t beta_ack[16];
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void extract_dci1A_info(uint8_t N_RB_DL, lte_frame_type_t frame_type, void *dci_pdu, DCI_INFO_EXTRACTED_t *pdci_info_extarcted)
{
    uint8_t harq_pid=0;
    uint32_t rballoc=0;
    uint8_t vrb_type=0;
    uint8_t mcs=0;
    uint8_t rv=0;
    uint8_t ndi=0;
    uint8_t TPC=0;

    uint8_t dai=0;

    switch (N_RB_DL) {
    case 6:
        if (frame_type == TDD) {
            vrb_type = ((DCI1A_1_5MHz_TDD_1_6_t *)dci_pdu)->vrb_type;
            mcs      = ((DCI1A_1_5MHz_TDD_1_6_t *)dci_pdu)->mcs;
            rballoc  = ((DCI1A_1_5MHz_TDD_1_6_t *)dci_pdu)->rballoc;
            rv       = ((DCI1A_1_5MHz_TDD_1_6_t *)dci_pdu)->rv;
            ndi      = ((DCI1A_1_5MHz_TDD_1_6_t *)dci_pdu)->ndi;
            TPC      = ((DCI1A_1_5MHz_TDD_1_6_t *)dci_pdu)->TPC;
            harq_pid = ((DCI1A_1_5MHz_TDD_1_6_t *)dci_pdu)->harq_pid;
            dai      = ((DCI1A_1_5MHz_TDD_1_6_t *)dci_pdu)->dai;
            //  printf("TDD 1A: mcs %d, rballoc %x,rv %d, TPC %d\n",mcs,rballoc,rv,TPC);
        } else {
            vrb_type = ((DCI1A_1_5MHz_FDD_t *)dci_pdu)->vrb_type;
            mcs      = ((DCI1A_1_5MHz_FDD_t *)dci_pdu)->mcs;
            rballoc  = ((DCI1A_1_5MHz_FDD_t *)dci_pdu)->rballoc;
            rv       = ((DCI1A_1_5MHz_FDD_t *)dci_pdu)->rv;
            ndi      = ((DCI1A_1_5MHz_FDD_t *)dci_pdu)->ndi;
            TPC      = ((DCI1A_1_5MHz_FDD_t *)dci_pdu)->TPC;
            harq_pid  = ((DCI1A_1_5MHz_FDD_t *)dci_pdu)->harq_pid;
            //printf("FDD 1A: mcs %d, rballoc %x,rv %d, TPC %d\n",mcs,rballoc,rv,TPC);
        }
        break;

    case 25:

        if (frame_type == TDD) {
            vrb_type = ((DCI1A_5MHz_TDD_1_6_t *)dci_pdu)->vrb_type;
            mcs      = ((DCI1A_5MHz_TDD_1_6_t *)dci_pdu)->mcs;
            rballoc  = ((DCI1A_5MHz_TDD_1_6_t *)dci_pdu)->rballoc;
            rv       = ((DCI1A_5MHz_TDD_1_6_t *)dci_pdu)->rv;
            ndi      = ((DCI1A_5MHz_TDD_1_6_t *)dci_pdu)->ndi;
            TPC      = ((DCI1A_5MHz_TDD_1_6_t *)dci_pdu)->TPC;
            harq_pid = ((DCI1A_5MHz_TDD_1_6_t *)dci_pdu)->harq_pid;
            dai      = ((DCI1A_5MHz_TDD_1_6_t *)dci_pdu)->dai;
            //printf("TDD 1A: mcs %d, rballoc %x,rv %d, TPC %d\n",mcs,rballoc,rv,TPC);
        } else {
            vrb_type = ((DCI1A_5MHz_FDD_t *)dci_pdu)->vrb_type;
            mcs      = ((DCI1A_5MHz_FDD_t *)dci_pdu)->mcs;
            rballoc  = ((DCI1A_5MHz_FDD_t *)dci_pdu)->rballoc;
            rv       = ((DCI1A_5MHz_FDD_t *)dci_pdu)->rv;
            ndi      = ((DCI1A_5MHz_FDD_t *)dci_pdu)->ndi;
            TPC      = ((DCI1A_5MHz_FDD_t *)dci_pdu)->TPC;
            harq_pid  = ((DCI1A_5MHz_FDD_t *)dci_pdu)->harq_pid;
            //printf("FDD 1A: mcs %d, rballoc %x,rv %d, TPC %d\n",mcs,rballoc,rv,TPC);
        }

        break;

    case 50:
        if (frame_type == TDD) {
            vrb_type = ((DCI1A_10MHz_TDD_1_6_t *)dci_pdu)->vrb_type;
            mcs      = ((DCI1A_10MHz_TDD_1_6_t *)dci_pdu)->mcs;
            rballoc  = ((DCI1A_10MHz_TDD_1_6_t *)dci_pdu)->rballoc;
            rv       = ((DCI1A_10MHz_TDD_1_6_t *)dci_pdu)->rv;
            ndi      = ((DCI1A_10MHz_TDD_1_6_t *)dci_pdu)->ndi;
            TPC      = ((DCI1A_10MHz_TDD_1_6_t *)dci_pdu)->TPC;
            harq_pid = ((DCI1A_10MHz_TDD_1_6_t *)dci_pdu)->harq_pid;
            dai      = ((DCI1A_10MHz_TDD_1_6_t *)dci_pdu)->dai;
            //  printf("TDD 1A: mcs %d, rballoc %x,rv %d, TPC %d\n",mcs,rballoc,rv,TPC);
        } else {
            vrb_type = ((DCI1A_10MHz_FDD_t *)dci_pdu)->vrb_type;
            mcs      = ((DCI1A_10MHz_FDD_t *)dci_pdu)->mcs;
            rballoc  = ((DCI1A_10MHz_FDD_t *)dci_pdu)->rballoc;
            rv       = ((DCI1A_10MHz_FDD_t *)dci_pdu)->rv;
            ndi      = ((DCI1A_10MHz_FDD_t *)dci_pdu)->ndi;
            TPC      = ((DCI1A_10MHz_FDD_t *)dci_pdu)->TPC;
            harq_pid  = ((DCI1A_10MHz_FDD_t *)dci_pdu)->harq_pid;
            //printf("FDD 1A: mcs %d, vrb_type %d, rballoc %x,ndi %d, rv %d, TPC %d\n",mcs,vrb_type,rballoc,ndi,rv,TPC);
        }
        break;

    case 100:
        if (frame_type == TDD) {
            vrb_type = ((DCI1A_20MHz_TDD_1_6_t *)dci_pdu)->vrb_type;
            mcs      = ((DCI1A_20MHz_TDD_1_6_t *)dci_pdu)->mcs;
            rballoc  = ((DCI1A_20MHz_TDD_1_6_t *)dci_pdu)->rballoc;
            rv       = ((DCI1A_20MHz_TDD_1_6_t *)dci_pdu)->rv;
            ndi      = ((DCI1A_20MHz_TDD_1_6_t *)dci_pdu)->ndi;
            TPC      = ((DCI1A_20MHz_TDD_1_6_t *)dci_pdu)->TPC;
            harq_pid = ((DCI1A_20MHz_TDD_1_6_t *)dci_pdu)->harq_pid;
            dai      = ((DCI1A_20MHz_TDD_1_6_t *)dci_pdu)->dai;
            //  printf("TDD 1A: mcs %d, rballoc %x,rv %d, TPC %d\n",mcs,rballoc,rv,TPC);
        } else {
            vrb_type = ((DCI1A_20MHz_FDD_t *)dci_pdu)->vrb_type;
            mcs      = ((DCI1A_20MHz_FDD_t *)dci_pdu)->mcs;
            rballoc  = ((DCI1A_20MHz_FDD_t *)dci_pdu)->rballoc;
            rv       = ((DCI1A_20MHz_FDD_t *)dci_pdu)->rv;
            ndi      = ((DCI1A_20MHz_FDD_t *)dci_pdu)->ndi;
            TPC      = ((DCI1A_20MHz_FDD_t *)dci_pdu)->TPC;
            harq_pid = ((DCI1A_20MHz_FDD_t *)dci_pdu)->harq_pid;
            //printf("FDD 1A: mcs %d, rballoc %x,rv %d, TPC %d\n",mcs,rballoc,rv,TPC);
        }
        break;
    }

    pdci_info_extarcted->vrb_type = vrb_type;
    pdci_info_extarcted->mcs1     = mcs;
    pdci_info_extarcted->rballoc  = rballoc;
    pdci_info_extarcted->rv1      = rv;
    pdci_info_extarcted->ndi1     = ndi;
    pdci_info_extarcted->TPC      = TPC;
    pdci_info_extarcted->harq_pid = harq_pid;
    pdci_info_extarcted->dai      = dai;
}

void extract_dci1C_info(uint8_t N_RB_DL, lte_frame_type_t frame_type, void *dci_pdu, DCI_INFO_EXTRACTED_t *pdci_info_extarcted)
{

    uint32_t rballoc=0;
    uint8_t mcs=0;
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    uint8_t Ngap=0;
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    switch (N_RB_DL) {
        case 6:
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          mcs             = ((DCI1C_1_5MHz_t *)dci_pdu)->mcs;
          rballoc         = conv_1C_RIV(((DCI1C_1_5MHz_t *)dci_pdu)->rballoc, 6);
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          break;

        case 25:
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          mcs             = ((DCI1C_5MHz_t *)dci_pdu)->mcs;
          rballoc         = conv_1C_RIV(((DCI1C_5MHz_t *)dci_pdu)->rballoc, 25);
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          break;

        case 50:
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          mcs             = ((DCI1C_10MHz_t *)dci_pdu)->mcs;
          rballoc         = conv_1C_RIV(((DCI1C_10MHz_t *)dci_pdu)->rballoc, 50);
          Ngap            = ((DCI1C_10MHz_t *)dci_pdu)->Ngap;
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          break;

        case 100:
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          mcs             = ((DCI1C_20MHz_t *)dci_pdu)->mcs;
          rballoc         = conv_1C_RIV(((DCI1C_20MHz_t *)dci_pdu)->rballoc, 100);
          Ngap            = ((DCI1C_20MHz_t *)dci_pdu)->Ngap;
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          break;

        default:
          AssertFatal(0,"Format 1C: Unknown N_RB_DL %d\n",N_RB_DL);
          break;
        }

    pdci_info_extarcted->mcs1     = mcs;
    pdci_info_extarcted->rballoc  = rballoc;
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    pdci_info_extarcted->Ngap     = Ngap;
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}

void extract_dci1_info(uint8_t N_RB_DL, lte_frame_type_t frame_type, void *dci_pdu, DCI_INFO_EXTRACTED_t *pdci_info_extarcted)
{

    uint32_t rballoc=0;
    uint8_t mcs=0;
    uint8_t rah=0;
    uint8_t rv=0;
    uint8_t TPC=0;
    uint8_t ndi=0;
    uint8_t harq_pid=0;

    switch (N_RB_DL) {
    case 6:
        if (frame_type == TDD) {
            mcs       = ((DCI1_1_5MHz_TDD_t *)dci_pdu)->mcs;
            rballoc   = ((DCI1_1_5MHz_TDD_t *)dci_pdu)->rballoc;
            rah       = ((DCI1_1_5MHz_TDD_t *)dci_pdu)->rah;
            rv        = ((DCI1_1_5MHz_TDD_t *)dci_pdu)->rv;
            TPC       = ((DCI1_1_5MHz_TDD_t *)dci_pdu)->TPC;
            ndi       = ((DCI1_1_5MHz_TDD_t *)dci_pdu)->ndi;
            harq_pid  = ((DCI1_1_5MHz_TDD_t *)dci_pdu)->harq_pid;
        } else {
            mcs      = ((DCI1_1_5MHz_FDD_t *)dci_pdu)->mcs;
            rah      = ((DCI1_1_5MHz_FDD_t *)dci_pdu)->rah;
            rballoc  = ((DCI1_1_5MHz_FDD_t *)dci_pdu)->rballoc;
            rv       = ((DCI1_1_5MHz_FDD_t *)dci_pdu)->rv;
            TPC       = ((DCI1_1_5MHz_FDD_t *)dci_pdu)->TPC;
            ndi      = ((DCI1_1_5MHz_FDD_t *)dci_pdu)->ndi;
            harq_pid = ((DCI1_1_5MHz_FDD_t *)dci_pdu)->harq_pid;
        }

        break;

    case 25:
        if (frame_type == TDD) {
            mcs       = ((DCI1_5MHz_TDD_t *)dci_pdu)->mcs;
            rballoc   = ((DCI1_5MHz_TDD_t *)dci_pdu)->rballoc;
            rah       = ((DCI1_5MHz_TDD_t *)dci_pdu)->rah;
            rv        = ((DCI1_5MHz_TDD_t *)dci_pdu)->rv;
            TPC       = ((DCI1_5MHz_TDD_t *)dci_pdu)->TPC;
            ndi       = ((DCI1_5MHz_TDD_t *)dci_pdu)->ndi;
            harq_pid  = ((DCI1_5MHz_TDD_t *)dci_pdu)->harq_pid;
        } else {
            mcs      = ((DCI1_5MHz_FDD_t *)dci_pdu)->mcs;
            rah      = ((DCI1_5MHz_FDD_t *)dci_pdu)->rah;
            rballoc  = ((DCI1_5MHz_FDD_t *)dci_pdu)->rballoc;
            rv       = ((DCI1_5MHz_FDD_t *)dci_pdu)->rv;
            TPC      = ((DCI1_5MHz_FDD_t *)dci_pdu)->TPC;
            ndi      = ((DCI1_5MHz_FDD_t *)dci_pdu)->ndi;
            harq_pid = ((DCI1_5MHz_FDD_t *)dci_pdu)->harq_pid;
        }

        break;

    case 50:
        if (frame_type == TDD) {
            mcs       = ((DCI1_10MHz_TDD_t *)dci_pdu)->mcs;
            rballoc   = ((DCI1_10MHz_TDD_t *)dci_pdu)->rballoc;
            rah       = ((DCI1_10MHz_TDD_t *)dci_pdu)->rah;
            rv        = ((DCI1_10MHz_TDD_t *)dci_pdu)->rv;
            TPC       = ((DCI1_10MHz_TDD_t *)dci_pdu)->TPC;
            ndi       = ((DCI1_10MHz_TDD_t *)dci_pdu)->ndi;
            harq_pid  = ((DCI1_10MHz_TDD_t *)dci_pdu)->harq_pid;
        } else {
            mcs      = ((DCI1_10MHz_FDD_t *)dci_pdu)->mcs;
            rah      = ((DCI1_10MHz_FDD_t *)dci_pdu)->rah;
            rballoc  = ((DCI1_10MHz_FDD_t *)dci_pdu)->rballoc;
            rv       = ((DCI1_10MHz_FDD_t *)dci_pdu)->rv;
            TPC      = ((DCI1_10MHz_FDD_t *)dci_pdu)->TPC;
            ndi      = ((DCI1_10MHz_FDD_t *)dci_pdu)->ndi;
            harq_pid = ((DCI1_10MHz_FDD_t *)dci_pdu)->harq_pid;
        }

        break;

    case 100:
        if (frame_type == TDD) {
            mcs       = ((DCI1_20MHz_TDD_t *)dci_pdu)->mcs;
            rballoc   = ((DCI1_20MHz_TDD_t *)dci_pdu)->rballoc;
            rah       = ((DCI1_20MHz_TDD_t *)dci_pdu)->rah;
            rv        = ((DCI1_20MHz_TDD_t *)dci_pdu)->rv;
            TPC        = ((DCI1_20MHz_TDD_t *)dci_pdu)->TPC;
            ndi       = ((DCI1_20MHz_TDD_t *)dci_pdu)->ndi;
            harq_pid  = ((DCI1_20MHz_TDD_t *)dci_pdu)->harq_pid;
        } else {
            mcs      = ((DCI1_20MHz_FDD_t *)dci_pdu)->mcs;
            rah      = ((DCI1_20MHz_FDD_t *)dci_pdu)->rah;
            rballoc  = ((DCI1_20MHz_FDD_t *)dci_pdu)->rballoc;
            rv       = ((DCI1_20MHz_FDD_t *)dci_pdu)->rv;
            TPC      = ((DCI1_20MHz_FDD_t *)dci_pdu)->TPC;
            ndi      = ((DCI1_20MHz_FDD_t *)dci_pdu)->ndi;
            harq_pid = ((DCI1_20MHz_FDD_t *)dci_pdu)->harq_pid;
        }

        break;
    }

    pdci_info_extarcted->mcs1     = mcs;
    pdci_info_extarcted->rah      = rah;
    pdci_info_extarcted->rballoc  = rballoc;
    pdci_info_extarcted->rv1      = rv;
    pdci_info_extarcted->TPC      = TPC;
    pdci_info_extarcted->ndi1     = ndi;
    pdci_info_extarcted->harq_pid = harq_pid;

}

void extract_dci2_info(uint8_t N_RB_DL, lte_frame_type_t frame_type, uint8_t nb_antenna_ports_eNB, void *dci_pdu, DCI_INFO_EXTRACTED_t *pdci_info_extarcted)
{

    uint32_t rballoc=0;
    uint8_t rah=0;
    uint8_t mcs1=0;
    uint8_t mcs2=0;
    uint8_t rv1=0;
    uint8_t rv2=0;
    uint8_t ndi1=0;
    uint8_t ndi2=0;
    uint8_t tbswap=0;
    uint8_t tpmi=0;
    uint8_t harq_pid=0;
    uint8_t TPC=0;

    switch (N_RB_DL) {

    case 6:
        if (nb_antenna_ports_eNB == 2) {
            if (frame_type == TDD) {
                rah       = ((DCI2_5MHz_2A_TDD_t *)dci_pdu)->rah;
                mcs1      = ((DCI2_5MHz_2A_TDD_t *)dci_pdu)->mcs1;
                mcs2      = ((DCI2_5MHz_2A_TDD_t *)dci_pdu)->mcs2;
                rballoc   = ((DCI2_5MHz_2A_TDD_t *)dci_pdu)->rballoc;
                rv1       = ((DCI2_5MHz_2A_TDD_t *)dci_pdu)->rv1;
                rv2       = ((DCI2_5MHz_2A_TDD_t *)dci_pdu)->rv2;
                harq_pid  = ((DCI2_5MHz_2A_TDD_t *)dci_pdu)->harq_pid;
                tbswap    = ((DCI2_5MHz_2A_TDD_t *)dci_pdu)->tb_swap;
                tpmi      = ((DCI2_5MHz_2A_TDD_t *)dci_pdu)->tpmi;
                TPC       = ((DCI2_5MHz_2A_TDD_t *)dci_pdu)->TPC;
                ndi1      = ((DCI2_5MHz_2A_TDD_t *)dci_pdu)->ndi1;
                ndi2      = ((DCI2_5MHz_2A_TDD_t *)dci_pdu)->ndi2;
            } else {
                rah       = ((DCI2_5MHz_2A_FDD_t *)dci_pdu)->rah;
                mcs1      = ((DCI2_5MHz_2A_FDD_t *)dci_pdu)->mcs1;
                mcs2      = ((DCI2_5MHz_2A_FDD_t *)dci_pdu)->mcs2;
                rballoc   = ((DCI2_5MHz_2A_FDD_t *)dci_pdu)->rballoc;
                rv1       = ((DCI2_5MHz_2A_FDD_t *)dci_pdu)->rv1;
                rv2       = ((DCI2_5MHz_2A_FDD_t *)dci_pdu)->rv2;
                harq_pid  = ((DCI2_5MHz_2A_FDD_t *)dci_pdu)->harq_pid;
                tbswap    = ((DCI2_5MHz_2A_FDD_t *)dci_pdu)->tb_swap;
                tpmi      = ((DCI2_5MHz_2A_FDD_t *)dci_pdu)->tpmi;
                TPC       = ((DCI2_5MHz_2A_FDD_t *)dci_pdu)->TPC;
                ndi1      = ((DCI2_5MHz_2A_FDD_t *)dci_pdu)->ndi1;
                ndi2      = ((DCI2_5MHz_2A_FDD_t *)dci_pdu)->ndi2;
            }
        } else if (nb_antenna_ports_eNB == 4) {
            if (frame_type == TDD) {
                rah       = ((DCI2_5MHz_4A_TDD_t *)dci_pdu)->rah;
                mcs1      = ((DCI2_5MHz_4A_TDD_t *)dci_pdu)->mcs1;
                mcs2      = ((DCI2_5MHz_4A_TDD_t *)dci_pdu)->mcs2;
                rballoc   = ((DCI2_5MHz_4A_TDD_t *)dci_pdu)->rballoc;
                rv1       = ((DCI2_5MHz_4A_TDD_t *)dci_pdu)->rv1;
                rv2       = ((DCI2_5MHz_4A_TDD_t *)dci_pdu)->rv2;
                harq_pid  = ((DCI2_5MHz_4A_TDD_t *)dci_pdu)->harq_pid;
                tbswap    = ((DCI2_5MHz_4A_TDD_t *)dci_pdu)->tb_swap;
                tpmi      = ((DCI2_5MHz_4A_TDD_t *)dci_pdu)->tpmi;
                TPC       = ((DCI2_5MHz_4A_TDD_t *)dci_pdu)->TPC;
                ndi1      = ((DCI2_5MHz_4A_TDD_t *)dci_pdu)->ndi1;
                ndi2      = ((DCI2_5MHz_4A_TDD_t *)dci_pdu)->ndi2;
            } else {
                rah       = ((DCI2_5MHz_4A_FDD_t *)dci_pdu)->rah;
                mcs1      = ((DCI2_5MHz_4A_FDD_t *)dci_pdu)->mcs1;
                mcs2      = ((DCI2_5MHz_4A_FDD_t *)dci_pdu)->mcs2;
                rballoc   = ((DCI2_5MHz_4A_FDD_t *)dci_pdu)->rballoc;
                rv1       = ((DCI2_5MHz_4A_FDD_t *)dci_pdu)->rv1;
                rv2       = ((DCI2_5MHz_4A_FDD_t *)dci_pdu)->rv2;
                harq_pid  = ((DCI2_5MHz_4A_FDD_t *)dci_pdu)->harq_pid;
                tbswap    = ((DCI2_5MHz_4A_FDD_t *)dci_pdu)->tb_swap;
                tpmi      = ((DCI2_5MHz_4A_FDD_t *)dci_pdu)->tpmi;
                TPC       = ((DCI2_5MHz_4A_FDD_t *)dci_pdu)->TPC;
                ndi1      = ((DCI2_5MHz_4A_FDD_t *)dci_pdu)->ndi1;
                ndi2      = ((DCI2_5MHz_4A_FDD_t *)dci_pdu)->ndi2;
            }
        } else {
            LOG_E(PHY,"UE: Format2 DCI: unsupported number of TX antennas %d\n",nb_antenna_ports_eNB);
        }

        break;

    case 25:
        if (nb_antenna_ports_eNB == 2) {
            if (frame_type == TDD) {
                rah       = ((DCI2_5MHz_2A_TDD_t *)dci_pdu)->rah;
                mcs1      = ((DCI2_5MHz_2A_TDD_t *)dci_pdu)->mcs1;
                mcs2      = ((DCI2_5MHz_2A_TDD_t *)dci_pdu)->mcs2;
                rballoc   = ((DCI2_5MHz_2A_TDD_t *)dci_pdu)->rballoc;
                rv1       = ((DCI2_5MHz_2A_TDD_t *)dci_pdu)->rv1;
                rv2       = ((DCI2_5MHz_2A_TDD_t *)dci_pdu)->rv2;
                harq_pid  = ((DCI2_5MHz_2A_TDD_t *)dci_pdu)->harq_pid;
                tbswap    = ((DCI2_5MHz_2A_TDD_t *)dci_pdu)->tb_swap;
                tpmi      = ((DCI2_5MHz_2A_TDD_t *)dci_pdu)->tpmi;
                TPC       = ((DCI2_5MHz_2A_TDD_t *)dci_pdu)->TPC;
                ndi1      = ((DCI2_5MHz_2A_TDD_t *)dci_pdu)->ndi1;
                ndi2      = ((DCI2_5MHz_2A_TDD_t *)dci_pdu)->ndi2;
            } else {
                rah       = ((DCI2_5MHz_2A_FDD_t *)dci_pdu)->rah;
                mcs1      = ((DCI2_5MHz_2A_FDD_t *)dci_pdu)->mcs1;
                mcs2      = ((DCI2_5MHz_2A_FDD_t *)dci_pdu)->mcs2;
                rballoc   = ((DCI2_5MHz_2A_FDD_t *)dci_pdu)->rballoc;
                rv1       = ((DCI2_5MHz_2A_FDD_t *)dci_pdu)->rv1;
                rv2       = ((DCI2_5MHz_2A_FDD_t *)dci_pdu)->rv2;
                harq_pid  = ((DCI2_5MHz_2A_FDD_t *)dci_pdu)->harq_pid;
                tbswap    = ((DCI2_5MHz_2A_FDD_t *)dci_pdu)->tb_swap;
                tpmi      = ((DCI2_5MHz_2A_FDD_t *)dci_pdu)->tpmi;
                TPC       = ((DCI2_5MHz_2A_FDD_t *)dci_pdu)->TPC;
                ndi1      = ((DCI2_5MHz_2A_FDD_t *)dci_pdu)->ndi1;
                ndi2      = ((DCI2_5MHz_2A_FDD_t *)dci_pdu)->ndi2;
            }
        } else if (nb_antenna_ports_eNB == 4) {
            if (frame_type == TDD) {
                rah       = ((DCI2_5MHz_4A_TDD_t *)dci_pdu)->rah;
                mcs1      = ((DCI2_5MHz_4A_TDD_t *)dci_pdu)->mcs1;
                mcs2      = ((DCI2_5MHz_4A_TDD_t *)dci_pdu)->mcs2;
                rballoc   = ((DCI2_5MHz_4A_TDD_t *)dci_pdu)->rballoc;
                rv1       = ((DCI2_5MHz_4A_TDD_t *)dci_pdu)->rv1;
                rv2       = ((DCI2_5MHz_4A_TDD_t *)dci_pdu)->rv2;
                harq_pid  = ((DCI2_5MHz_4A_TDD_t *)dci_pdu)->harq_pid;
                tbswap    = ((DCI2_5MHz_4A_TDD_t *)dci_pdu)->tb_swap;
                tpmi      = ((DCI2_5MHz_4A_TDD_t *)dci_pdu)->tpmi;
                TPC       = ((DCI2_5MHz_4A_TDD_t *)dci_pdu)->TPC;
                ndi1      = ((DCI2_5MHz_2A_TDD_t *)dci_pdu)->ndi1;
                ndi2      = ((DCI2_5MHz_2A_TDD_t *)dci_pdu)->ndi2;
            } else {
                rah       = ((DCI2_5MHz_4A_FDD_t *)dci_pdu)->rah;
                mcs1      = ((DCI2_5MHz_4A_FDD_t *)dci_pdu)->mcs1;
                mcs2      = ((DCI2_5MHz_4A_FDD_t *)dci_pdu)->mcs2;
                rballoc   = ((DCI2_5MHz_4A_FDD_t *)dci_pdu)->rballoc;
                rv1       = ((DCI2_5MHz_4A_FDD_t *)dci_pdu)->rv1;
                rv2       = ((DCI2_5MHz_4A_FDD_t *)dci_pdu)->rv2;
                harq_pid  = ((DCI2_5MHz_4A_FDD_t *)dci_pdu)->harq_pid;
                tbswap    = ((DCI2_5MHz_4A_FDD_t *)dci_pdu)->tb_swap;
                tpmi      = ((DCI2_5MHz_4A_FDD_t *)dci_pdu)->tpmi;
                TPC       = ((DCI2_5MHz_4A_FDD_t *)dci_pdu)->TPC;
                ndi1      = ((DCI2_5MHz_4A_FDD_t *)dci_pdu)->ndi1;
                ndi2      = ((DCI2_5MHz_4A_FDD_t *)dci_pdu)->ndi2;
            }
        } else {
            LOG_E(PHY,"UE: Format2 DCI: unsupported number of TX antennas %d\n",nb_antenna_ports_eNB);
        }

        break;

    case 50:
        if (nb_antenna_ports_eNB == 2) {
            if (frame_type == TDD) {
                rah       = ((DCI2_10MHz_2A_TDD_t *)dci_pdu)->rah;
                mcs1      = ((DCI2_10MHz_2A_TDD_t *)dci_pdu)->mcs1;
                mcs2      = ((DCI2_10MHz_2A_TDD_t *)dci_pdu)->mcs2;
                rballoc   = ((DCI2_10MHz_2A_TDD_t *)dci_pdu)->rballoc;
                rv1       = ((DCI2_10MHz_2A_TDD_t *)dci_pdu)->rv1;
                rv2       = ((DCI2_10MHz_2A_TDD_t *)dci_pdu)->rv2;
                harq_pid  = ((DCI2_10MHz_2A_TDD_t *)dci_pdu)->harq_pid;
                tbswap    = ((DCI2_10MHz_2A_TDD_t *)dci_pdu)->tb_swap;
                tpmi      = ((DCI2_10MHz_2A_TDD_t *)dci_pdu)->tpmi;
                TPC       = ((DCI2_10MHz_2A_TDD_t *)dci_pdu)->TPC;
                ndi1      = ((DCI2_10MHz_2A_TDD_t *)dci_pdu)->ndi1;
                ndi2      = ((DCI2_10MHz_2A_TDD_t *)dci_pdu)->ndi2;
            } else {
                rah       = ((DCI2_10MHz_2A_FDD_t *)dci_pdu)->rah;
                mcs1      = ((DCI2_10MHz_2A_FDD_t *)dci_pdu)->mcs1;
                mcs2      = ((DCI2_10MHz_2A_FDD_t *)dci_pdu)->mcs2;
                rballoc   = ((DCI2_10MHz_2A_FDD_t *)dci_pdu)->rballoc;
                rv1       = ((DCI2_10MHz_2A_FDD_t *)dci_pdu)->rv1;
                rv2       = ((DCI2_10MHz_2A_FDD_t *)dci_pdu)->rv2;
                harq_pid  = ((DCI2_10MHz_2A_FDD_t *)dci_pdu)->harq_pid;
                tbswap    = ((DCI2_10MHz_2A_FDD_t *)dci_pdu)->tb_swap;
                tpmi      = ((DCI2_10MHz_2A_FDD_t *)dci_pdu)->tpmi;
                TPC       = ((DCI2_10MHz_2A_FDD_t *)dci_pdu)->TPC;
                ndi1      = ((DCI2_10MHz_2A_FDD_t *)dci_pdu)->ndi1;
                ndi2      = ((DCI2_10MHz_2A_FDD_t *)dci_pdu)->ndi2;
            }
        } else if (nb_antenna_ports_eNB == 4) {
            if (frame_type == TDD) {
                rah       = ((DCI2_10MHz_4A_TDD_t *)dci_pdu)->rah;
                mcs1      = ((DCI2_10MHz_4A_TDD_t *)dci_pdu)->mcs1;
                mcs2      = ((DCI2_10MHz_4A_TDD_t *)dci_pdu)->mcs2;
                rballoc   = ((DCI2_10MHz_4A_TDD_t *)dci_pdu)->rballoc;
                rv1       = ((DCI2_10MHz_4A_TDD_t *)dci_pdu)->rv1;
                rv2       = ((DCI2_10MHz_4A_TDD_t *)dci_pdu)->rv2;
                harq_pid  = ((DCI2_10MHz_4A_TDD_t *)dci_pdu)->harq_pid;
                tbswap    = ((DCI2_10MHz_4A_TDD_t *)dci_pdu)->tb_swap;
                tpmi      = ((DCI2_10MHz_4A_TDD_t *)dci_pdu)->tpmi;
                TPC       = ((DCI2_10MHz_4A_TDD_t *)dci_pdu)->TPC;
                ndi1      = ((DCI2_10MHz_4A_TDD_t *)dci_pdu)->ndi1;
                ndi2      = ((DCI2_10MHz_4A_TDD_t *)dci_pdu)->ndi2;
            } else {
                rah       = ((DCI2_10MHz_4A_FDD_t *)dci_pdu)->rah;
                mcs1      = ((DCI2_10MHz_4A_FDD_t *)dci_pdu)->mcs1;
                mcs2      = ((DCI2_10MHz_4A_FDD_t *)dci_pdu)->mcs2;
                rballoc   = ((DCI2_10MHz_4A_FDD_t *)dci_pdu)->rballoc;
                rv1       = ((DCI2_10MHz_4A_FDD_t *)dci_pdu)->rv1;
                rv2       = ((DCI2_10MHz_4A_FDD_t *)dci_pdu)->rv2;
                harq_pid  = ((DCI2_10MHz_4A_FDD_t *)dci_pdu)->harq_pid;
                tbswap    = ((DCI2_10MHz_4A_FDD_t *)dci_pdu)->tb_swap;
                tpmi      = ((DCI2_10MHz_4A_FDD_t *)dci_pdu)->tpmi;
                TPC       = ((DCI2_10MHz_4A_FDD_t *)dci_pdu)->TPC;
                ndi1      = ((DCI2_10MHz_4A_FDD_t *)dci_pdu)->ndi1;
                ndi2      = ((DCI2_10MHz_4A_FDD_t *)dci_pdu)->ndi2;
            }
        } else {
            LOG_E(PHY,"UE: Format2A DCI: unsupported number of TX antennas %d\n",nb_antenna_ports_eNB);
        }

        break;

    case 100:
        if (nb_antenna_ports_eNB == 2) {
            if (frame_type == TDD) {
                rah       = ((DCI2_20MHz_2A_TDD_t *)dci_pdu)->rah;
                mcs1      = ((DCI2_20MHz_2A_TDD_t *)dci_pdu)->mcs1;
                mcs2      = ((DCI2_20MHz_2A_TDD_t *)dci_pdu)->mcs2;
                rballoc   = ((DCI2_20MHz_2A_TDD_t *)dci_pdu)->rballoc;
                rv1       = ((DCI2_20MHz_2A_TDD_t *)dci_pdu)->rv1;
                rv2       = ((DCI2_20MHz_2A_TDD_t *)dci_pdu)->rv2;
                harq_pid  = ((DCI2_20MHz_2A_TDD_t *)dci_pdu)->harq_pid;
                tbswap    = ((DCI2_20MHz_2A_TDD_t *)dci_pdu)->tb_swap;
                tpmi      = ((DCI2_20MHz_2A_TDD_t *)dci_pdu)->tpmi;
                TPC       = ((DCI2_20MHz_2A_TDD_t *)dci_pdu)->TPC;
                ndi1      = ((DCI2_20MHz_2A_TDD_t *)dci_pdu)->ndi1;
                ndi2      = ((DCI2_20MHz_2A_TDD_t *)dci_pdu)->ndi2;
            } else {
                rah       = ((DCI2_20MHz_2A_FDD_t *)dci_pdu)->rah;
                mcs1      = ((DCI2_20MHz_2A_FDD_t *)dci_pdu)->mcs1;
                mcs2      = ((DCI2_20MHz_2A_FDD_t *)dci_pdu)->mcs2;
                rballoc   = ((DCI2_20MHz_2A_FDD_t *)dci_pdu)->rballoc;
                rv1       = ((DCI2_20MHz_2A_FDD_t *)dci_pdu)->rv1;
                rv2       = ((DCI2_20MHz_2A_FDD_t *)dci_pdu)->rv2;
                harq_pid  = ((DCI2_20MHz_2A_FDD_t *)dci_pdu)->harq_pid;
                tbswap    = ((DCI2_20MHz_2A_FDD_t *)dci_pdu)->tb_swap;
                tpmi      = ((DCI2_20MHz_2A_FDD_t *)dci_pdu)->tpmi;
                TPC       = ((DCI2_20MHz_2A_FDD_t *)dci_pdu)->TPC;
                ndi1      = ((DCI2_20MHz_2A_FDD_t *)dci_pdu)->ndi1;
                ndi2      = ((DCI2_20MHz_2A_FDD_t *)dci_pdu)->ndi2;
            }
        } else if (nb_antenna_ports_eNB == 4) {
            if (frame_type == TDD) {
                rah       = ((DCI2_20MHz_4A_TDD_t *)dci_pdu)->rah;
                mcs1      = ((DCI2_20MHz_4A_TDD_t *)dci_pdu)->mcs1;
                mcs2      = ((DCI2_20MHz_4A_TDD_t *)dci_pdu)->mcs2;
                rballoc   = ((DCI2_20MHz_4A_TDD_t *)dci_pdu)->rballoc;
                rv1       = ((DCI2_20MHz_4A_TDD_t *)dci_pdu)->rv1;
                rv2       = ((DCI2_20MHz_4A_TDD_t *)dci_pdu)->rv2;
                harq_pid  = ((DCI2_20MHz_4A_TDD_t *)dci_pdu)->harq_pid;
                tbswap    = ((DCI2_20MHz_4A_TDD_t *)dci_pdu)->tb_swap;
                tpmi      = ((DCI2_20MHz_4A_TDD_t *)dci_pdu)->tpmi;
                TPC       = ((DCI2_20MHz_4A_TDD_t *)dci_pdu)->TPC;
                ndi1      = ((DCI2_20MHz_4A_TDD_t *)dci_pdu)->ndi1;
                ndi2      = ((DCI2_20MHz_4A_TDD_t *)dci_pdu)->ndi2;
            } else {
                rah       = ((DCI2_20MHz_4A_FDD_t *)dci_pdu)->rah;
                mcs1      = ((DCI2_20MHz_4A_FDD_t *)dci_pdu)->mcs1;
                mcs2      = ((DCI2_20MHz_4A_FDD_t *)dci_pdu)->mcs2;
                rballoc   = ((DCI2_20MHz_4A_FDD_t *)dci_pdu)->rballoc;
                rv1       = ((DCI2_20MHz_4A_FDD_t *)dci_pdu)->rv1;
                rv2       = ((DCI2_20MHz_4A_FDD_t *)dci_pdu)->rv2;
                harq_pid  = ((DCI2_20MHz_4A_FDD_t *)dci_pdu)->harq_pid;
                tbswap    = ((DCI2_20MHz_4A_FDD_t *)dci_pdu)->tb_swap;
                tpmi      = ((DCI2_20MHz_4A_FDD_t *)dci_pdu)->tpmi;
                TPC       = ((DCI2_20MHz_4A_FDD_t *)dci_pdu)->TPC;
                ndi1      = ((DCI2_20MHz_4A_FDD_t *)dci_pdu)->ndi1;
                ndi2      = ((DCI2_20MHz_4A_FDD_t *)dci_pdu)->ndi2;
            }
        } else {
            LOG_E(PHY,"UE: Format2A DCI: unsupported number of TX antennas %d\n",nb_antenna_ports_eNB);
        }

        break;
    }

    pdci_info_extarcted->rah      = rah;
    pdci_info_extarcted->mcs1     = mcs1;
    pdci_info_extarcted->mcs2     = mcs2;
    pdci_info_extarcted->rv1      = rv1;
    pdci_info_extarcted->rv2      = rv2;
    pdci_info_extarcted->harq_pid = harq_pid;
    pdci_info_extarcted->rballoc  = rballoc;
    pdci_info_extarcted->tb_swap  = tbswap;
    pdci_info_extarcted->tpmi     = tpmi;
    pdci_info_extarcted->TPC      = TPC;
    pdci_info_extarcted->ndi1     = ndi1;
    pdci_info_extarcted->ndi2     = ndi2;

}

void extract_dci2A_info(uint8_t N_RB_DL, lte_frame_type_t frame_type, uint8_t nb_antenna_ports_eNB, void *dci_pdu, DCI_INFO_EXTRACTED_t *pdci_info_extarcted)
{

    uint32_t rballoc=0;
    uint8_t rah=0;
    uint8_t mcs1=0;
    uint8_t mcs2=0;
    uint8_t rv1=0;
    uint8_t rv2=0;
    uint8_t ndi1=0;
    uint8_t ndi2=0;
    uint8_t tbswap=0;
    uint8_t tpmi=0;
    uint8_t harq_pid=0;
    uint8_t TPC=0;

    AssertFatal( (nb_antenna_ports_eNB == 2) || (nb_antenna_ports_eNB == 4), "unsupported nb_antenna_ports_eNB %d\n", nb_antenna_ports_eNB);
    switch (N_RB_DL) {

    case 6:
      if (nb_antenna_ports_eNB == 2) {
        if (frame_type == TDD) {
          mcs1      = ((DCI2A_1_5MHz_2A_TDD_t *)dci_pdu)->mcs1;
          mcs2      = ((DCI2A_1_5MHz_2A_TDD_t *)dci_pdu)->mcs2;
          rballoc   = ((DCI2A_1_5MHz_2A_TDD_t *)dci_pdu)->rballoc;
          rv1       = ((DCI2A_1_5MHz_2A_TDD_t *)dci_pdu)->rv1;
          rv2       = ((DCI2A_1_5MHz_2A_TDD_t *)dci_pdu)->rv2;
          ndi1      = ((DCI2A_1_5MHz_2A_TDD_t *)dci_pdu)->ndi1;
          ndi2      = ((DCI2A_1_5MHz_2A_TDD_t *)dci_pdu)->ndi2;
          harq_pid  = ((DCI2A_1_5MHz_2A_TDD_t *)dci_pdu)->harq_pid;
          tbswap    = ((DCI2A_1_5MHz_2A_TDD_t *)dci_pdu)->tb_swap;
          TPC       = ((DCI2A_1_5MHz_2A_TDD_t *)dci_pdu)->TPC;
        } else {
          mcs1      = ((DCI2A_1_5MHz_2A_FDD_t *)dci_pdu)->mcs1;
          mcs2      = ((DCI2A_1_5MHz_2A_FDD_t *)dci_pdu)->mcs2;
          rballoc   = ((DCI2A_1_5MHz_2A_FDD_t *)dci_pdu)->rballoc;
          rv1       = ((DCI2A_1_5MHz_2A_FDD_t *)dci_pdu)->rv1;
          rv2       = ((DCI2A_1_5MHz_2A_FDD_t *)dci_pdu)->rv2;
          ndi1      = ((DCI2A_1_5MHz_2A_FDD_t *)dci_pdu)->ndi1;
          ndi2      = ((DCI2A_1_5MHz_2A_FDD_t *)dci_pdu)->ndi2;
          harq_pid  = ((DCI2A_1_5MHz_2A_FDD_t *)dci_pdu)->harq_pid;
          tbswap    = ((DCI2A_1_5MHz_2A_FDD_t *)dci_pdu)->tb_swap;
          TPC       = ((DCI2A_1_5MHz_2A_FDD_t *)dci_pdu)->TPC;
        }
      } else if (nb_antenna_ports_eNB == 4) {
        if (frame_type == TDD) {
          mcs1      = ((DCI2A_1_5MHz_4A_TDD_t *)dci_pdu)->mcs1;
          mcs2      = ((DCI2A_1_5MHz_4A_TDD_t *)dci_pdu)->mcs2;
          rballoc   = ((DCI2A_1_5MHz_4A_TDD_t *)dci_pdu)->rballoc;
          rv1       = ((DCI2A_1_5MHz_4A_TDD_t *)dci_pdu)->rv1;
          rv2       = ((DCI2A_1_5MHz_4A_TDD_t *)dci_pdu)->rv2;
          ndi1      = ((DCI2A_1_5MHz_4A_TDD_t *)dci_pdu)->ndi1;
          ndi2      = ((DCI2A_1_5MHz_4A_TDD_t *)dci_pdu)->ndi2;
          harq_pid  = ((DCI2A_1_5MHz_4A_TDD_t *)dci_pdu)->harq_pid;
          tbswap    = ((DCI2A_1_5MHz_4A_TDD_t *)dci_pdu)->tb_swap;
          tpmi      = ((DCI2A_1_5MHz_4A_TDD_t *)dci_pdu)->tpmi;
          TPC       = ((DCI2A_1_5MHz_4A_TDD_t *)dci_pdu)->TPC;
        } else {
          mcs1      = ((DCI2A_1_5MHz_4A_FDD_t *)dci_pdu)->mcs1;
          mcs2      = ((DCI2A_1_5MHz_4A_FDD_t *)dci_pdu)->mcs2;
          rballoc   = ((DCI2A_1_5MHz_4A_FDD_t *)dci_pdu)->rballoc;
          rv1       = ((DCI2A_1_5MHz_4A_FDD_t *)dci_pdu)->rv1;
          rv2       = ((DCI2A_1_5MHz_4A_FDD_t *)dci_pdu)->rv2;
          ndi1      = ((DCI2A_1_5MHz_4A_FDD_t *)dci_pdu)->ndi1;
          ndi2      = ((DCI2A_1_5MHz_4A_FDD_t *)dci_pdu)->ndi2;
          harq_pid  = ((DCI2A_1_5MHz_4A_FDD_t *)dci_pdu)->harq_pid;
          tbswap    = ((DCI2A_1_5MHz_4A_FDD_t *)dci_pdu)->tb_swap;
          tpmi      = ((DCI2A_1_5MHz_4A_FDD_t *)dci_pdu)->tpmi;
          TPC       = ((DCI2A_1_5MHz_4A_FDD_t *)dci_pdu)->TPC;
        }
      }

      break;

    case 25:
      if (nb_antenna_ports_eNB == 2) {
        if (frame_type == TDD) {
          mcs1      = ((DCI2A_5MHz_2A_TDD_t *)dci_pdu)->mcs1;
          mcs2      = ((DCI2A_5MHz_2A_TDD_t *)dci_pdu)->mcs2;
          rballoc   = ((DCI2A_5MHz_2A_TDD_t *)dci_pdu)->rballoc;
          rah       = ((DCI2A_5MHz_2A_TDD_t *)dci_pdu)->rah;
          rv1       = ((DCI2A_5MHz_2A_TDD_t *)dci_pdu)->rv1;
          rv2       = ((DCI2A_5MHz_2A_TDD_t *)dci_pdu)->rv2;
          ndi1      = ((DCI2A_5MHz_2A_TDD_t *)dci_pdu)->ndi1;
          ndi2      = ((DCI2A_5MHz_2A_TDD_t *)dci_pdu)->ndi2;
          harq_pid  = ((DCI2A_5MHz_2A_TDD_t *)dci_pdu)->harq_pid;
          tbswap    = ((DCI2A_5MHz_2A_TDD_t *)dci_pdu)->tb_swap;
          TPC       = ((DCI2A_5MHz_2A_TDD_t *)dci_pdu)->TPC;
        } else {
          mcs1      = ((DCI2A_5MHz_2A_FDD_t *)dci_pdu)->mcs1;
          mcs2      = ((DCI2A_5MHz_2A_FDD_t *)dci_pdu)->mcs2;
          rballoc   = ((DCI2A_5MHz_2A_FDD_t *)dci_pdu)->rballoc;
          rah       = ((DCI2A_5MHz_2A_FDD_t *)dci_pdu)->rah;
          rv1       = ((DCI2A_5MHz_2A_FDD_t *)dci_pdu)->rv1;
          rv2       = ((DCI2A_5MHz_2A_FDD_t *)dci_pdu)->rv2;
          ndi1      = ((DCI2A_5MHz_2A_FDD_t *)dci_pdu)->ndi1;
          ndi2      = ((DCI2A_5MHz_2A_FDD_t *)dci_pdu)->ndi2;
          harq_pid  = ((DCI2A_5MHz_2A_FDD_t *)dci_pdu)->harq_pid;
          tbswap    = ((DCI2A_5MHz_2A_FDD_t *)dci_pdu)->tb_swap;
          TPC       = ((DCI2A_5MHz_2A_FDD_t *)dci_pdu)->TPC;
        }
      } else if (nb_antenna_ports_eNB == 4) {
        if (frame_type == TDD) {
          mcs1      = ((DCI2A_5MHz_4A_TDD_t *)dci_pdu)->mcs1;
          mcs2      = ((DCI2A_5MHz_4A_TDD_t *)dci_pdu)->mcs2;
          rballoc   = ((DCI2A_5MHz_4A_TDD_t *)dci_pdu)->rballoc;
          rah       = ((DCI2A_5MHz_4A_TDD_t *)dci_pdu)->rah;
          rv1       = ((DCI2A_5MHz_4A_TDD_t *)dci_pdu)->rv1;
          rv2       = ((DCI2A_5MHz_4A_TDD_t *)dci_pdu)->rv2;
          ndi1      = ((DCI2A_5MHz_4A_TDD_t *)dci_pdu)->ndi1;
          ndi2      = ((DCI2A_5MHz_4A_TDD_t *)dci_pdu)->ndi2;
          harq_pid  = ((DCI2A_5MHz_4A_TDD_t *)dci_pdu)->harq_pid;
          tbswap    = ((DCI2A_5MHz_4A_TDD_t *)dci_pdu)->tb_swap;
          tpmi      = ((DCI2A_5MHz_4A_TDD_t *)dci_pdu)->tpmi;
          TPC       = ((DCI2A_5MHz_4A_TDD_t *)dci_pdu)->TPC;
        } else {
          mcs1      = ((DCI2A_5MHz_4A_FDD_t *)dci_pdu)->mcs1;
          mcs2      = ((DCI2A_5MHz_4A_FDD_t *)dci_pdu)->mcs2;
          rballoc   = ((DCI2A_5MHz_4A_FDD_t *)dci_pdu)->rballoc;
          rah       = ((DCI2A_5MHz_4A_FDD_t *)dci_pdu)->rah;
          rv1       = ((DCI2A_5MHz_4A_FDD_t *)dci_pdu)->rv1;
          rv2       = ((DCI2A_5MHz_4A_FDD_t *)dci_pdu)->rv2;
          ndi1      = ((DCI2A_5MHz_4A_TDD_t *)dci_pdu)->ndi1;
          ndi2      = ((DCI2A_5MHz_4A_TDD_t *)dci_pdu)->ndi2;
          harq_pid  = ((DCI2A_5MHz_4A_FDD_t *)dci_pdu)->harq_pid;
          tbswap    = ((DCI2A_5MHz_4A_FDD_t *)dci_pdu)->tb_swap;
          tpmi      = ((DCI2A_5MHz_4A_FDD_t *)dci_pdu)->tpmi;
          TPC       = ((DCI2A_5MHz_4A_FDD_t *)dci_pdu)->TPC;
        }
      }
      break;

    case 50:
      if (nb_antenna_ports_eNB == 2) {
        if (frame_type == TDD) {
          mcs1      = ((DCI2A_10MHz_2A_TDD_t *)dci_pdu)->mcs1;
          mcs2      = ((DCI2A_10MHz_2A_TDD_t *)dci_pdu)->mcs2;
          rballoc   = ((DCI2A_10MHz_2A_TDD_t *)dci_pdu)->rballoc;
          rah       = ((DCI2A_10MHz_2A_TDD_t *)dci_pdu)->rah;
          rv1       = ((DCI2A_10MHz_2A_TDD_t *)dci_pdu)->rv1;
          rv2       = ((DCI2A_10MHz_2A_TDD_t *)dci_pdu)->rv2;
          ndi1      = ((DCI2A_10MHz_2A_TDD_t *)dci_pdu)->ndi1;
          ndi2      = ((DCI2A_10MHz_2A_TDD_t *)dci_pdu)->ndi2;
          harq_pid  = ((DCI2A_10MHz_2A_TDD_t *)dci_pdu)->harq_pid;
          tbswap    = ((DCI2A_10MHz_2A_TDD_t *)dci_pdu)->tb_swap;
          TPC       = ((DCI2A_10MHz_2A_TDD_t *)dci_pdu)->TPC;
        } else {
          mcs1      = ((DCI2A_10MHz_2A_FDD_t *)dci_pdu)->mcs1;
          mcs2      = ((DCI2A_10MHz_2A_FDD_t *)dci_pdu)->mcs2;
          rballoc   = ((DCI2A_10MHz_2A_FDD_t *)dci_pdu)->rballoc;
          rah       = ((DCI2A_10MHz_2A_FDD_t *)dci_pdu)->rah;
          rv1       = ((DCI2A_10MHz_2A_FDD_t *)dci_pdu)->rv1;
          rv2       = ((DCI2A_10MHz_2A_FDD_t *)dci_pdu)->rv2;
          ndi1      = ((DCI2A_10MHz_2A_FDD_t *)dci_pdu)->ndi1;
          ndi2      = ((DCI2A_10MHz_2A_FDD_t *)dci_pdu)->ndi2;
          harq_pid  = ((DCI2A_10MHz_2A_FDD_t *)dci_pdu)->harq_pid;
          tbswap    = ((DCI2A_10MHz_2A_FDD_t *)dci_pdu)->tb_swap;
          TPC       = ((DCI2A_10MHz_2A_FDD_t *)dci_pdu)->TPC;
        }
      } else if (nb_antenna_ports_eNB == 4) {
        if (frame_type == TDD) {
          mcs1      = ((DCI2A_10MHz_4A_TDD_t *)dci_pdu)->mcs1;
          mcs2      = ((DCI2A_10MHz_4A_TDD_t *)dci_pdu)->mcs2;
          rballoc   = ((DCI2A_10MHz_4A_TDD_t *)dci_pdu)->rballoc;
          rah       = ((DCI2A_10MHz_4A_TDD_t *)dci_pdu)->rah;
          rv1       = ((DCI2A_10MHz_4A_TDD_t *)dci_pdu)->rv1;
          rv2       = ((DCI2A_10MHz_4A_TDD_t *)dci_pdu)->rv2;
          ndi1      = ((DCI2A_10MHz_4A_TDD_t *)dci_pdu)->ndi1;
          ndi2      = ((DCI2A_10MHz_4A_TDD_t *)dci_pdu)->ndi2;
          harq_pid  = ((DCI2A_10MHz_4A_TDD_t *)dci_pdu)->harq_pid;
          tbswap    = ((DCI2A_10MHz_4A_TDD_t *)dci_pdu)->tb_swap;
          tpmi      = ((DCI2A_10MHz_4A_TDD_t *)dci_pdu)->tpmi;
          TPC       = ((DCI2A_10MHz_4A_TDD_t *)dci_pdu)->TPC;
        } else {
          mcs1      = ((DCI2A_10MHz_4A_FDD_t *)dci_pdu)->mcs1;
          mcs2      = ((DCI2A_10MHz_4A_FDD_t *)dci_pdu)->mcs2;
          rballoc   = ((DCI2A_10MHz_4A_FDD_t *)dci_pdu)->rballoc;
          rah       = ((DCI2A_10MHz_4A_FDD_t *)dci_pdu)->rah;
          rv1       = ((DCI2A_10MHz_4A_FDD_t *)dci_pdu)->rv1;
          rv2       = ((DCI2A_10MHz_4A_FDD_t *)dci_pdu)->rv2;
          ndi1      = ((DCI2A_10MHz_4A_FDD_t *)dci_pdu)->ndi1;
          ndi2      = ((DCI2A_10MHz_4A_FDD_t *)dci_pdu)->ndi2;
          harq_pid  = ((DCI2A_10MHz_4A_FDD_t *)dci_pdu)->harq_pid;
          tbswap    = ((DCI2A_10MHz_4A_FDD_t *)dci_pdu)->tb_swap;
          tpmi      = ((DCI2A_10MHz_4A_FDD_t *)dci_pdu)->tpmi;
          TPC       = ((DCI2A_10MHz_4A_FDD_t *)dci_pdu)->TPC;
        }
      }

      break;

    case 100:
      if (nb_antenna_ports_eNB == 2) {
        if (frame_type == TDD) {
          mcs1      = ((DCI2A_20MHz_2A_TDD_t *)dci_pdu)->mcs1;
          mcs2      = ((DCI2A_20MHz_2A_TDD_t *)dci_pdu)->mcs2;
          rballoc   = ((DCI2A_20MHz_2A_TDD_t *)dci_pdu)->rballoc;
          rah       = ((DCI2A_20MHz_2A_TDD_t *)dci_pdu)->rah;
          rv1       = ((DCI2A_20MHz_2A_TDD_t *)dci_pdu)->rv1;
          rv2       = ((DCI2A_20MHz_2A_TDD_t *)dci_pdu)->rv2;
          ndi1      = ((DCI2A_20MHz_2A_TDD_t *)dci_pdu)->ndi1;
          ndi2      = ((DCI2A_20MHz_2A_TDD_t *)dci_pdu)->ndi2;
          harq_pid  = ((DCI2A_20MHz_2A_TDD_t *)dci_pdu)->harq_pid;
          tbswap    = ((DCI2A_20MHz_2A_TDD_t *)dci_pdu)->tb_swap;
          TPC       = ((DCI2A_20MHz_2A_TDD_t *)dci_pdu)->TPC;
        } else {
          mcs1      = ((DCI2A_20MHz_2A_FDD_t *)dci_pdu)->mcs1;
          mcs2      = ((DCI2A_20MHz_2A_FDD_t *)dci_pdu)->mcs2;
          rballoc   = ((DCI2A_20MHz_2A_FDD_t *)dci_pdu)->rballoc;
          rah       = ((DCI2A_20MHz_2A_FDD_t *)dci_pdu)->rah;
          rv1       = ((DCI2A_20MHz_2A_FDD_t *)dci_pdu)->rv1;
          rv2       = ((DCI2A_20MHz_2A_FDD_t *)dci_pdu)->rv2;
          ndi1      = ((DCI2A_20MHz_2A_FDD_t *)dci_pdu)->ndi1;
          ndi2      = ((DCI2A_20MHz_2A_FDD_t *)dci_pdu)->ndi2;
          harq_pid  = ((DCI2A_20MHz_2A_FDD_t *)dci_pdu)->harq_pid;
          tbswap    = ((DCI2A_20MHz_2A_FDD_t *)dci_pdu)->tb_swap;
          TPC       = ((DCI2A_20MHz_2A_FDD_t *)dci_pdu)->TPC;
        }
      } else if (nb_antenna_ports_eNB == 4) {
        if (frame_type == TDD) {
          mcs1      = ((DCI2A_20MHz_4A_TDD_t *)dci_pdu)->mcs1;
          mcs2      = ((DCI2A_20MHz_4A_TDD_t *)dci_pdu)->mcs2;
          rballoc   = ((DCI2A_20MHz_4A_TDD_t *)dci_pdu)->rballoc;
          rah       = ((DCI2A_20MHz_4A_TDD_t *)dci_pdu)->rah;
          rv1       = ((DCI2A_20MHz_4A_TDD_t *)dci_pdu)->rv1;
          rv2       = ((DCI2A_20MHz_4A_TDD_t *)dci_pdu)->rv2;
          ndi1      = ((DCI2A_20MHz_4A_TDD_t *)dci_pdu)->ndi1;
          ndi2      = ((DCI2A_20MHz_4A_TDD_t *)dci_pdu)->ndi2;
          harq_pid  = ((DCI2A_20MHz_4A_TDD_t *)dci_pdu)->harq_pid;
          tbswap    = ((DCI2A_20MHz_4A_TDD_t *)dci_pdu)->tb_swap;
          tpmi      = ((DCI2A_20MHz_4A_TDD_t *)dci_pdu)->tpmi;
          TPC       = ((DCI2A_20MHz_4A_TDD_t *)dci_pdu)->TPC;
        } else {
          mcs1      = ((DCI2A_20MHz_4A_FDD_t *)dci_pdu)->mcs1;
          mcs2      = ((DCI2A_20MHz_4A_FDD_t *)dci_pdu)->mcs2;
          rballoc   = ((DCI2A_20MHz_4A_FDD_t *)dci_pdu)->rballoc;
          rah       = ((DCI2A_20MHz_4A_FDD_t *)dci_pdu)->rah;
          rv1       = ((DCI2A_20MHz_4A_FDD_t *)dci_pdu)->rv1;
          rv2       = ((DCI2A_20MHz_4A_FDD_t *)dci_pdu)->rv2;
          ndi1      = ((DCI2A_20MHz_4A_FDD_t *)dci_pdu)->ndi1;
          ndi2      = ((DCI2A_20MHz_4A_FDD_t *)dci_pdu)->ndi2;
          harq_pid  = ((DCI2A_20MHz_4A_FDD_t *)dci_pdu)->harq_pid;
          tbswap    = ((DCI2A_20MHz_4A_FDD_t *)dci_pdu)->tb_swap;
          tpmi    = ((DCI2A_20MHz_4A_FDD_t *)dci_pdu)->tpmi;
          TPC     = ((DCI2A_20MHz_4A_FDD_t *)dci_pdu)->TPC;
        }
      }

      break;
    }

    pdci_info_extarcted->mcs1     = mcs1;
    pdci_info_extarcted->mcs2     = mcs2;
    pdci_info_extarcted->rballoc  = rballoc;
    pdci_info_extarcted->rah      = rah;
    pdci_info_extarcted->rv1      = rv1;
    pdci_info_extarcted->rv2      = rv2;
    pdci_info_extarcted->ndi1     = ndi1;
    pdci_info_extarcted->ndi2     = ndi2;
    pdci_info_extarcted->harq_pid = harq_pid;
    pdci_info_extarcted->tb_swap  = tbswap;
    pdci_info_extarcted->TPC      = TPC;
    pdci_info_extarcted->tpmi     = tpmi;
}

int check_dci_format1_1a_coherency(DCI_format_t dci_format,
        uint8_t N_RB_DL,
        uint16_t rnti,
        uint16_t tc_rnti,
        uint16_t si_rnti,
        uint16_t ra_rnti,
        uint16_t p_rnti,
        uint32_t frame,
        uint8_t  subframe,
        DCI_INFO_EXTRACTED_t *pdci_info_extarcted,
        LTE_DL_UE_HARQ_t *pdlsch0_harq)
{
    uint8_t  harq_pid  = pdci_info_extarcted->harq_pid;
    uint32_t rballoc   = pdci_info_extarcted->rballoc;
    uint8_t  mcs1      = pdci_info_extarcted->mcs1;
    uint8_t  TPC       = pdci_info_extarcted->TPC;
    uint8_t  rah       = pdci_info_extarcted->rah;
#ifdef DEBUG_DCI
    uint8_t  rv1       = pdci_info_extarcted->rv1;
    uint8_t  ndi1      = pdci_info_extarcted->ndi1;
#endif

    uint8_t  NPRB    = 0;
    long long int RIV_max = 0;

#ifdef DEBUG_DCI
    LOG_I(PHY,"[DCI-FORMAT-1-1A] AbsSubframe %d.%d dci_format %d\n", frame, subframe, dci_format);
    LOG_I(PHY,"[DCI-FORMAT-1-1A] rnti       %x\n",  rnti);
    LOG_I(PHY,"[DCI-FORMAT-1-1A] harq_pid   %d\n", harq_pid);
    LOG_I(PHY,"[DCI-FORMAT-1-1A] rah        %d\n", rah);
    LOG_I(PHY,"[DCI-FORMAT-1-1A] rballoc    %x\n", rballoc);
    LOG_I(PHY,"[DCI-FORMAT-1-1A] mcs1       %d\n", mcs1);
    LOG_I(PHY,"[DCI-FORMAT-1-1A] rv1        %d\n", rv1);
    LOG_I(PHY,"[DCI-FORMAT-1-1A] ndi1       %d\n", ndi1);
    LOG_I(PHY,"[DCI-FORMAT-1-1A] TPC        %d\n", TPC);
#endif


    // I- check dci content minimum coherency
    if( ((rnti==si_rnti) || (rnti==p_rnti) || (rnti==ra_rnti)) && harq_pid > 0)
    {
        return(0);
    }

    if(harq_pid>=8)
    {
      //        LOG_I(PHY,"bad harq id \n");
        return(0);
    }

    if(dci_format == format1 && ((rnti==si_rnti) || (rnti==p_rnti) || (rnti==ra_rnti)) )
    {
      //        LOG_I(PHY,"bad dci format \n");
        return(0);
    }


    if( mcs1 > 28)
    {
        if(pdlsch0_harq->round == 0)
        {
	  //            LOG_I(PHY,"bad dci mcs + round \n");
            return(0);
        }

        if((rnti==si_rnti) || (rnti==p_rnti) || (rnti==ra_rnti))
        {
	  //            LOG_I(PHY,"bad dci mcs + rnti  \n");
            return(0);
        }
    }

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    if (dci_format == format1A && ((rnti==si_rnti) || (rnti==p_rnti) || (rnti==ra_rnti)))
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    {
        NPRB = (TPC&1) + 2;
        switch (N_RB_DL) {
        case 6:
            RIV_max  = RIV_max6;
            break;
        case 25:
            RIV_max  = RIV_max25;
            break;
        case 50:
            RIV_max  = RIV_max50;
            break;
        case 100:
            RIV_max  = RIV_max100;
            break;
        }
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    } 
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    else if (dci_format == format1A)
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    {
        switch (N_RB_DL) {
        case 6:
            NPRB     = RIV2nb_rb_LUT6[rballoc];//NPRB;
            if(rah)
              RIV_max  = RIV_max6;
            else
              RIV_max  = 0x3F;
            break;
        case 25:
            NPRB     = RIV2nb_rb_LUT25[rballoc];//NPRB;
            if(rah)
              RIV_max  = RIV_max25;
            else
              RIV_max  = 0x1FFF;
            break;
        case 50:
            NPRB     = RIV2nb_rb_LUT50[rballoc];//NPRB;
            if(rah)
              RIV_max  = RIV_max50;
            else
              RIV_max  = 0x1FFFF;
            break;
        case 100:
            NPRB     = RIV2nb_rb_LUT100[rballoc];//NPRB;
            if(rah)
              RIV_max  = RIV_max100;
            else
              RIV_max  =  0x1FFFFFF;
            break;
        }
    }


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    else if (dci_format == format1)
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    {
        NPRB = conv_nprb(rah, rballoc, N_RB_DL);
    }


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    if(dci_format == format1A && rballoc > RIV_max)
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    {
      //        LOG_I(PHY,"bad dci rballoc rballoc %d  RIV_max %lld \n",rballoc, RIV_max);
        // DCI false detection
        return(0);
    }

    if(NPRB == 0)
    {
        // DCI false detection
      //        LOG_I(PHY,"bad NPRB = 0 \n");
        return(0);
    }

    // this a retransmission
    if(pdlsch0_harq->round>0)
    {
        // compare old TBS to new TBS
        if((mcs1<29) && (pdlsch0_harq->TBS != TBStable[get_I_TBS(mcs1)][NPRB-1]))
        {
            // this is an eNB issue
            // retransmisison but old and new TBS are different !!!
            // work around, consider it as a new transmission
            LOG_E(PHY,"Format1A Retransmission but TBS are different: consider it as new transmission !!! \n");
            pdlsch0_harq->round = 0;
            //return(0); // ?? to cross check
        }
    }

    return(1);
}

int check_dci_format1c_coherency(uint8_t N_RB_DL,
                                 DCI_INFO_EXTRACTED_t *pdci_info_extarcted,
                                 uint16_t rnti,
                                 uint16_t si_rnti,
                                 uint16_t ra_rnti,
                                 uint16_t p_rnti,
                                 LTE_DL_UE_HARQ_t *pdlsch0_harq)
{
    uint32_t rballoc = pdci_info_extarcted->rballoc;

    uint8_t  NPRB    = 0;
    uint32_t RIV_max = 0;

    // I- check dci content minimum coherency

    if((rnti!=si_rnti) && (rnti!=p_rnti) && (rnti!=ra_rnti))
      return(0);

    switch (N_RB_DL) {
    case 6:
      NPRB     = RIV2nb_rb_LUT6[rballoc];//NPRB;
      RIV_max  = RIV_max6;
    break;
    case 25:
      NPRB     = RIV2nb_rb_LUT25[rballoc];//NPRB;
      RIV_max  = RIV_max25;
    break;
    case 50:
      NPRB     = RIV2nb_rb_LUT50[rballoc];//NPRB;
      RIV_max  = RIV_max50;
    break;
    case 100:
      NPRB     = RIV2nb_rb_LUT100[rballoc];//NPRB;
      RIV_max  = RIV_max100;
    break;
    }

   if(rballoc > RIV_max)
   {
      // DCI false detection
      return(0);
   }

   if(NPRB == 0)
   {
      // DCI false detection
      return(0);
   }

   return(1);
}

int check_dci_format2_2a_coherency(DCI_format_t dci_format,
                                   uint8_t N_RB_DL,
                                   DCI_INFO_EXTRACTED_t *pdci_info_extarcted,
                                   uint16_t rnti,
                                   uint16_t si_rnti,
                                   uint16_t ra_rnti,
                                   uint16_t p_rnti,
                                   LTE_DL_UE_HARQ_t *pdlsch0_harq,
                                   LTE_DL_UE_HARQ_t *pdlsch1_harq)
{
    uint8_t  rah  = pdci_info_extarcted->rah;
    uint8_t  mcs1 = pdci_info_extarcted->mcs1;
    uint8_t  mcs2 = pdci_info_extarcted->mcs2;
    uint8_t  rv1  = pdci_info_extarcted->rv1;
    uint8_t  rv2  = pdci_info_extarcted->rv2;
    uint8_t  harq_pid = pdci_info_extarcted->harq_pid;
    uint32_t rballoc  = pdci_info_extarcted->rballoc;

#ifdef DEBUG_DCI
    uint8_t  ndi1     = pdci_info_extarcted->ndi1;
    uint8_t  ndi2     = pdci_info_extarcted->ndi2;
#endif

    uint8_t  NPRB    = 0;
    long long RIV_max = 0;

#ifdef DEBUG_DCI
    LOG_I(PHY, "extarcted dci - dci_format %d \n", dci_format);
    LOG_I(PHY, "extarcted dci - rnti       %d \n", rnti);
    LOG_I(PHY, "extarcted dci - rah        %d \n", rah);
    LOG_I(PHY, "extarcted dci - mcs1       %d \n", mcs1);
    LOG_I(PHY, "extarcted dci - mcs2       %d \n", mcs2);
    LOG_I(PHY, "extarcted dci - rv1        %d \n", rv1);
    LOG_I(PHY, "extarcted dci - rv2        %d \n", rv2);
    //LOG_I(PHY, "extarcted dci - ndi1       %d \n", ndi1);
    //LOG_I(PHY, "extarcted dci - ndi2       %d \n", ndi2);
    LOG_I(PHY, "extarcted dci - rballoc    %x \n", rballoc);
    LOG_I(PHY, "extarcted dci - harq pid   %d \n", harq_pid);
    LOG_I(PHY, "extarcted dci - round0     %d \n", pdlsch0_harq->round);
    LOG_I(PHY, "extarcted dci - round1     %d \n", pdlsch1_harq->round);
#endif

    // I- check dci content minimum coherency
    if(harq_pid>=8)
    {
      //        LOG_I(PHY,"bad harq pid\n");
      return(0);
    }

    if( (rnti==si_rnti) || (rnti==p_rnti) || (rnti==ra_rnti) )
    {
      //        LOG_I(PHY,"bad rnti\n");
        return(0);
    }


    if( mcs1 > 28)
    {
      if(pdlsch0_harq->round == 0)
      {
	//          LOG_I(PHY,"bad mcs1\n");
        return(0);
      }
    }

    if( mcs2 > 28)
    {
      if(pdlsch1_harq->round == 0)
      {
	//          LOG_I(PHY,"bad mcs2\n");
          return(0);
      }
    }


    if((pdlsch0_harq->round == 0) && (rv1 > 0) && (mcs1 != 0))
    {
      // DCI false detection
      //        LOG_I(PHY,"bad rv1\n");
      return(0);
    }

    if((pdlsch1_harq->round == 0) && (rv2 > 0) && (mcs2 != 0))
    {
      // DCI false detection
      //        LOG_I(PHY,"bad rv2\n");
      return(0);
    }


    switch (N_RB_DL) {
    case 6:
        if (rah == 0)
        {
            //RBG = 1;
            RIV_max = 0x3F;
        }
        else
        {
            RIV_max  = RIV_max6;
        }
        break;
    case 25:
        if (rah == 0)
        {
            //RBG = 2;
            RIV_max = 0x1FFF;
        }
        else
        {
            RIV_max  = RIV_max25;
        }
        break;
    case 50:
        if (rah == 0)
        {
            //RBG = 3;
            RIV_max = 0x1FFFF;
        }
        else
        {
            RIV_max  = RIV_max50;
        }
        break;
    case 100:
        if (rah == 0)
        {
            //RBG = 4;
            RIV_max  = 0x1FFFFFF;
        }
        else
        {
            RIV_max  = RIV_max100;
        }
        break;
    }

    NPRB = conv_nprb(rah,
                     rballoc,
                     N_RB_DL);



   if( (rballoc > RIV_max) && (rah == 1) )
   {
      // DCI false detection
     //       LOG_I(PHY,"bad rballoc %d RIV_max %lld\n", rballoc, RIV_max);
      return(0);
   }

   if(NPRB == 0)
   {
      // DCI false detection
     //       LOG_I(PHY,"bad NPRB\n");
      return(0);
   }

   return(1);
}

void compute_llr_offset(LTE_DL_FRAME_PARMS *frame_parms,
                        LTE_UE_PDCCH *pdcch_vars,
                        LTE_UE_PDSCH *pdsch_vars,
                        LTE_DL_UE_HARQ_t *dlsch0_harq,
                        uint8_t nb_rb_alloc,
                        uint8_t subframe)
{
    uint32_t pbch_pss_sss_re;
    uint32_t crs_re;
    uint32_t granted_re;
    uint32_t data_re;
    uint32_t llr_offset;
    uint8_t symbol;
    uint8_t symbol_mod;

    pdsch_vars->llr_offset[pdcch_vars->num_pdcch_symbols] = 0;

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    LOG_D(PHY,"compute_llr_offset:  nb RB %d - Qm %d \n", nb_rb_alloc, dlsch0_harq->Qm);
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    //dlsch0_harq->rb_alloc_even;
    //dlsch0_harq->rb_alloc_odd;

    for(symbol=pdcch_vars->num_pdcch_symbols; symbol<frame_parms->symbols_per_tti; symbol++)
    {
        symbol_mod = (symbol >= (7-frame_parms->Ncp))? (symbol-(7-frame_parms->Ncp)) : symbol;
        if((symbol_mod == 0) || symbol_mod == (4-frame_parms->Ncp))
        {
	  if (frame_parms->nb_antennas_tx == 2) 
	    crs_re = 4;
	  else
	    crs_re = 2;
        }
        else
        {
            crs_re = 0;
        }

        granted_re = nb_rb_alloc * (12-crs_re);
        pbch_pss_sss_re = adjust_G2(frame_parms,dlsch0_harq->rb_alloc_even,dlsch0_harq->Qm,subframe,symbol);
        pbch_pss_sss_re = (double)pbch_pss_sss_re * ((double)(12-crs_re)/12);
        data_re = granted_re - pbch_pss_sss_re;
        llr_offset = data_re * dlsch0_harq->Qm * 2;

        pdsch_vars->llr_length[symbol]   = data_re;
        if(symbol < (frame_parms->symbols_per_tti-1))
          pdsch_vars->llr_offset[symbol+1] = pdsch_vars->llr_offset[symbol] + llr_offset;

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	LOG_D(PHY,"Granted Re subframe %d / symbol %d => %d (%d RBs)\n", subframe, symbol_mod, granted_re,dlsch0_harq->nb_rb);
	LOG_D(PHY,"Pbch/PSS/SSS Re subframe %d / symbol %d => %d \n", subframe, symbol_mod, pbch_pss_sss_re);
	LOG_D(PHY,"CRS Re Per PRB subframe %d / symbol %d => %d \n", subframe, symbol_mod, crs_re);
	LOG_D(PHY,"Data Re subframe %d / symbol %d => %d \n", subframe, symbol_mod, data_re);
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        LOG_D(PHY,"Data Re subframe %d-symbol %d => llr length %d, llr offset %d \n", subframe, symbol,
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              pdsch_vars->llr_length[symbol], pdsch_vars->llr_offset[symbol]);
    }
}
void prepare_dl_decoding_format1_1A(DCI_format_t dci_format,
                                    uint8_t N_RB_DL,
                                    DCI_INFO_EXTRACTED_t *pdci_info_extarcted,
                                    LTE_DL_FRAME_PARMS *frame_parms,
                                    LTE_UE_PDCCH *pdcch_vars,
                                    LTE_UE_PDSCH *pdsch_vars,
                                    uint8_t  subframe,
                                    uint16_t rnti,
									uint16_t tc_rnti,
                                    uint16_t si_rnti,
                                    uint16_t ra_rnti,
                                    uint16_t p_rnti,
                                    LTE_DL_UE_HARQ_t *pdlsch0_harq,
                                    LTE_UE_DLSCH_t *pdlsch0)
{

    uint8_t  harq_pid  = pdci_info_extarcted->harq_pid;
    uint8_t  vrb_type  = pdci_info_extarcted->vrb_type;
    uint32_t rballoc   = pdci_info_extarcted->rballoc;
    uint8_t  mcs1      = pdci_info_extarcted->mcs1;
    uint8_t  rv1       = pdci_info_extarcted->rv1;
    uint8_t  ndi1      = pdci_info_extarcted->ndi1;
    uint8_t  TPC       = pdci_info_extarcted->TPC;
    uint8_t  rah       = pdci_info_extarcted->rah;
    uint8_t  dai       = pdci_info_extarcted->dai;


    uint8_t  NPRB      = 0;
    uint8_t  NPRB4TBS  = 0;

    if(dci_format == format1A)
    {
      switch (N_RB_DL) {
      case 6:
	NPRB     = RIV2nb_rb_LUT6[rballoc];
	break;
      case 25:
	NPRB     = RIV2nb_rb_LUT25[rballoc];
	break;
      case 50:
	NPRB     = RIV2nb_rb_LUT50[rballoc];
	break;
      case 100:
	NPRB     = RIV2nb_rb_LUT100[rballoc];
	break;
      }
      if ((rnti==si_rnti) || (rnti==p_rnti) || (rnti==ra_rnti))
        {
	  NPRB4TBS = (TPC&1) + 2;
        }
      else
        {
	  NPRB4TBS = NPRB;
	  /*
            switch (N_RB_DL) {
            case 6:
                NPRB     = RIV2nb_rb_LUT6[rballoc];//NPRB;
                break;
            case 25:
                NPRB     = RIV2nb_rb_LUT25[rballoc];//NPRB;
                break;
            case 50:
                NPRB     = RIV2nb_rb_LUT50[rballoc];//NPRB;
                break;
            case 100:
                NPRB     = RIV2nb_rb_LUT100[rballoc];//NPRB;
                break;
            }

	  */
        }
    }
    else // format1
    {
        NPRB = conv_nprb(rah, rballoc, N_RB_DL);
	NPRB4TBS=NPRB;
    }

    pdlsch0->current_harq_pid = harq_pid;
    pdlsch0->active           = 1;
    pdlsch0->rnti             = rnti;
    if(dci_format == format1A)
        pdlsch0->harq_ack[subframe].vDAI_DL = dai+1;

    if ((rnti==si_rnti) || (rnti==p_rnti) || (rnti==ra_rnti))
    {
        pdlsch0_harq->round    = 0;
        pdlsch0_harq->status   = ACTIVE;
    }
    else //CRNTI
    {
    	if (rnti == tc_rnti) {
			//fix for standalone Contention Resolution Id
	  pdlsch0_harq->DCINdi = (uint8_t)-1;
	  LOG_D(PHY,"UE (%x/%d): Format1A DCI: C-RNTI is temporary. Set NDI = %d and to be ignored\n",
		rnti,harq_pid,pdlsch0_harq->DCINdi);
    	}

        // NDI has been toggled or this is the first transmission
        if ((ndi1!=pdlsch0_harq->DCINdi) || (pdlsch0_harq->first_tx==1))
        {
            pdlsch0_harq->round    = 0;
            pdlsch0_harq->first_tx = 0;
            pdlsch0_harq->status   = ACTIVE;

        }else if (rv1  != 0 )
            //NDI has not been toggled but rv was increased by eNB: retransmission
        {
            if (pdlsch0_harq->status == SCH_IDLE)
                //packet was actually decoded in previous transmission (ACK was missed by eNB)
                //However, the round is not a good check as it might have been decoded in a retransmission prior to this one.
            {
	      //                LOG_D(PHY,"skip pdsch decoding and report ack\n");
                // skip pdsch decoding and report ack
                //pdlsch0_harq->status   = SCH_IDLE;
                pdlsch0->active       = 0;
                pdlsch0->harq_ack[subframe].ack = 1;
                pdlsch0->harq_ack[subframe].harq_id = harq_pid;
                pdlsch0->harq_ack[subframe].send_harq_status = 1;

                //pdlsch0_harq->first_tx = 0;
            }
            else  //normal retransmission
            {
                // nothing special to do
            }
        }
        else
        {
            pdlsch0_harq->status   = ACTIVE;
        }
    }

    pdlsch0_harq->DCINdi = ndi1;
    pdlsch0_harq->mcs    = mcs1;
    pdlsch0_harq->rvidx  = rv1;
    pdlsch0_harq->nb_rb  = NPRB;

    pdlsch0_harq->codeword     = 0;
    pdlsch0_harq->Nl           = 1;
    pdlsch0_harq->mimo_mode    = frame_parms->nb_antenna_ports_eNB == 1 ?SISO : ALAMOUTI;
    pdlsch0_harq->dl_power_off = 1; //no power offset
    pdlsch0_harq->delta_PUCCH  = delta_PUCCH_lut[TPC &3];

    // compute resource allocation
    if(dci_format == format1A)
    {
        switch (N_RB_DL) {
        case 6:
            if (vrb_type == LOCALIZED) {
                pdlsch0_harq->rb_alloc_even[0] = localRIV2alloc_LUT6[rballoc];
                pdlsch0_harq->rb_alloc_odd[0]  = localRIV2alloc_LUT6[rballoc];
            }
            else {
                pdlsch0_harq->rb_alloc_even[0] = distRIV2alloc_even_LUT6[rballoc];
                pdlsch0_harq->rb_alloc_odd[0]  = distRIV2alloc_odd_LUT6[rballoc];
            }
            break;

        case 25:
            if (vrb_type == LOCALIZED) {
                pdlsch0_harq->rb_alloc_even[0] = localRIV2alloc_LUT25[rballoc];
                pdlsch0_harq->rb_alloc_odd[0]  = localRIV2alloc_LUT25[rballoc];
            }
            else {
                pdlsch0_harq->rb_alloc_even[0] = distRIV2alloc_even_LUT25[rballoc];
                pdlsch0_harq->rb_alloc_odd[0]  = distRIV2alloc_odd_LUT25[rballoc];
            }
            break;

        case 50:
            if (vrb_type == LOCALIZED) {
                pdlsch0_harq->rb_alloc_even[0] = localRIV2alloc_LUT50_0[rballoc];
                pdlsch0_harq->rb_alloc_even[1] = localRIV2alloc_LUT50_1[rballoc];
                pdlsch0_harq->rb_alloc_odd[0]  = localRIV2alloc_LUT50_0[rballoc];
                pdlsch0_harq->rb_alloc_odd[1]  = localRIV2alloc_LUT50_1[rballoc];
            } else { // DISTRIBUTED
                if ((rballoc&(1<<10)) == 0) {
                    rballoc = rballoc&(~(1<<10));
                    pdlsch0_harq->rb_alloc_even[0] = distRIV2alloc_gap0_even_LUT50_0[rballoc];
                    pdlsch0_harq->rb_alloc_even[1] = distRIV2alloc_gap0_even_LUT50_1[rballoc];
                    pdlsch0_harq->rb_alloc_odd[0]  = distRIV2alloc_gap0_odd_LUT50_0[rballoc];
                    pdlsch0_harq->rb_alloc_odd[1]  = distRIV2alloc_gap0_odd_LUT50_1[rballoc];
                }
                else {
                    rballoc = rballoc&(~(1<<10));
                    pdlsch0_harq->rb_alloc_even[0] = distRIV2alloc_gap0_even_LUT50_0[rballoc];
                    pdlsch0_harq->rb_alloc_even[1] = distRIV2alloc_gap0_even_LUT50_1[rballoc];
                    pdlsch0_harq->rb_alloc_odd[0]  = distRIV2alloc_gap0_odd_LUT50_0[rballoc];
                    pdlsch0_harq->rb_alloc_odd[1]  = distRIV2alloc_gap0_odd_LUT50_1[rballoc];
                }
            }
            break;

        case 100:
            if (vrb_type == LOCALIZED) {
                pdlsch0_harq->rb_alloc_even[0] = localRIV2alloc_LUT100_0[rballoc];
                pdlsch0_harq->rb_alloc_even[1] = localRIV2alloc_LUT100_1[rballoc];
                pdlsch0_harq->rb_alloc_even[2] = localRIV2alloc_LUT100_2[rballoc];
                pdlsch0_harq->rb_alloc_even[3] = localRIV2alloc_LUT100_3[rballoc];
                pdlsch0_harq->rb_alloc_odd[0]  = localRIV2alloc_LUT100_0[rballoc];
                pdlsch0_harq->rb_alloc_odd[1]  = localRIV2alloc_LUT100_1[rballoc];
                pdlsch0_harq->rb_alloc_odd[2]  = localRIV2alloc_LUT100_2[rballoc];
                pdlsch0_harq->rb_alloc_odd[3]  = localRIV2alloc_LUT100_3[rballoc];
            } else {
                if ((rballoc&(1<<10)) == 0) { //Gap 1
                    rballoc = rballoc&(~(1<<12));
                    pdlsch0_harq->rb_alloc_even[0] = distRIV2alloc_gap0_even_LUT100_0[rballoc];
                    pdlsch0_harq->rb_alloc_even[1] = distRIV2alloc_gap0_even_LUT100_1[rballoc];
                    pdlsch0_harq->rb_alloc_even[2] = distRIV2alloc_gap0_even_LUT100_2[rballoc];
                    pdlsch0_harq->rb_alloc_even[3] = distRIV2alloc_gap0_even_LUT100_3[rballoc];
                    pdlsch0_harq->rb_alloc_odd[0]  = distRIV2alloc_gap0_odd_LUT100_0[rballoc];
                    pdlsch0_harq->rb_alloc_odd[1]  = distRIV2alloc_gap0_odd_LUT100_1[rballoc];
                    pdlsch0_harq->rb_alloc_odd[2]  = distRIV2alloc_gap0_odd_LUT100_2[rballoc];
                    pdlsch0_harq->rb_alloc_odd[3]  = distRIV2alloc_gap0_odd_LUT100_3[rballoc];
                }
                else { //Gap 2
                    rballoc = rballoc&(~(1<<12));
                    pdlsch0_harq->rb_alloc_even[0] = distRIV2alloc_gap1_even_LUT100_0[rballoc];
                    pdlsch0_harq->rb_alloc_even[1] = distRIV2alloc_gap1_even_LUT100_1[rballoc];
                    pdlsch0_harq->rb_alloc_even[2] = distRIV2alloc_gap1_even_LUT100_2[rballoc];
                    pdlsch0_harq->rb_alloc_even[3] = distRIV2alloc_gap1_even_LUT100_3[rballoc];
                    pdlsch0_harq->rb_alloc_odd[0]  = distRIV2alloc_gap1_odd_LUT100_0[rballoc];
                    pdlsch0_harq->rb_alloc_odd[1]  = distRIV2alloc_gap1_odd_LUT100_1[rballoc];
                    pdlsch0_harq->rb_alloc_odd[2]  = distRIV2alloc_gap1_odd_LUT100_2[rballoc];
                    pdlsch0_harq->rb_alloc_odd[3]  = distRIV2alloc_gap1_odd_LUT100_3[rballoc];
                }
            }
            break;
        }
    }
    else // format1
    {
        conv_rballoc(rah,rballoc,frame_parms->N_RB_DL,pdlsch0_harq->rb_alloc_even);
        pdlsch0_harq->rb_alloc_odd[0]= pdlsch0_harq->rb_alloc_even[0];
        pdlsch0_harq->rb_alloc_odd[1]= pdlsch0_harq->rb_alloc_even[1];
        pdlsch0_harq->rb_alloc_odd[2]= pdlsch0_harq->rb_alloc_even[2];
        pdlsch0_harq->rb_alloc_odd[3]= pdlsch0_harq->rb_alloc_even[3];
    }
    if ((rnti==si_rnti) || (rnti==p_rnti) || (rnti==ra_rnti))
    {
        pdlsch0_harq->TBS = TBStable[mcs1][NPRB4TBS-1];
        pdlsch0_harq->Qm  = 2;
    }
    else
    {
        if(mcs1 < 29)
        {
            pdlsch0_harq->TBS = TBStable[get_I_TBS(mcs1)][NPRB4TBS-1];
            pdlsch0_harq->Qm  = get_Qm(mcs1);
        }
    }

    compute_llr_offset(frame_parms,
                       pdcch_vars,
                       pdsch_vars,
                       pdlsch0_harq,
                       NPRB,
                       subframe);
}

void prepare_dl_decoding_format1C(uint8_t N_RB_DL,
                                  DCI_INFO_EXTRACTED_t *pdci_info_extarcted,
                                  LTE_DL_FRAME_PARMS *frame_parms,
                                  LTE_UE_PDCCH *pdcch_vars,
                                  LTE_UE_PDSCH *pdsch_vars,
                                  uint32_t rnti,
                                  uint32_t si_rnti,
                                  uint32_t ra_rnti,
                                  uint32_t p_rnti,
                                  uint32_t frame,
                                  uint8_t  subframe,
                                  LTE_DL_UE_HARQ_t *pdlsch0_harq,
                                  LTE_UE_DLSCH_t *pdlsch0)
{

    uint8_t  harq_pid  = pdci_info_extarcted->harq_pid;
    uint32_t rballoc   = pdci_info_extarcted->rballoc;
    uint8_t  mcs1      = pdci_info_extarcted->mcs1;
    uint8_t  Ngap      = pdci_info_extarcted->Ngap;

      pdlsch0_harq->round     = 0;
      pdlsch0_harq->first_tx  = 1;
      pdlsch0_harq->vrb_type  = DISTRIBUTED;

      if (rnti==si_rnti) { // rule from Section 5.3.1 of 36.321
        if (((frame&1) == 0) && (subframe == 5))
           pdlsch0_harq->rvidx = (((3*((frame>>1)&3))+1)>>1)&3;  // SIB1
        else
           pdlsch0_harq->rvidx = (((3*(subframe&3))+1)>>1)&3;  // other SIBs
      }
      else if ((rnti==p_rnti) || (rnti==ra_rnti)) { // Section 7.1.7.3
        pdlsch0_harq->rvidx = 0;
      }


      pdlsch0_harq->Nl           = 1;
      pdlsch0_harq->mimo_mode    = frame_parms->nb_antenna_ports_eNB == 1 ?SISO : ALAMOUTI;
      pdlsch0_harq->dl_power_off = 1; //no power offset

      pdlsch0_harq->codeword = 0;
      pdlsch0_harq->mcs      = mcs1;
      pdlsch0_harq->TBS      = TBStable1C[mcs1];
      pdlsch0_harq->Qm       = 2;


      pdlsch0->current_harq_pid = harq_pid;
      pdlsch0->active = 1;
      pdlsch0->rnti   = rnti;

    switch (N_RB_DL) {
    case 6:
        pdlsch0_harq->nb_rb            = RIV2nb_rb_LUT6[rballoc];
        pdlsch0_harq->rb_alloc_even[0] = distRIV2alloc_even_LUT6[rballoc];
        pdlsch0_harq->rb_alloc_odd[0]  = distRIV2alloc_odd_LUT6[rballoc];

        break;

    case 25:
        pdlsch0_harq->nb_rb            = RIV2nb_rb_LUT25[rballoc];
        pdlsch0_harq->rb_alloc_even[0] = distRIV2alloc_even_LUT25[rballoc];
        pdlsch0_harq->rb_alloc_odd[0]  = distRIV2alloc_odd_LUT25[rballoc];
        break;

    case 50:
        pdlsch0_harq->nb_rb            = RIV2nb_rb_LUT50[rballoc];
        if (Ngap == 0) {
            pdlsch0_harq->rb_alloc_even[0] = distRIV2alloc_gap0_even_LUT50_0[rballoc];
            pdlsch0_harq->rb_alloc_odd[0]  = distRIV2alloc_gap0_odd_LUT50_0[rballoc];
            pdlsch0_harq->rb_alloc_even[1] = distRIV2alloc_gap0_even_LUT50_1[rballoc];
            pdlsch0_harq->rb_alloc_odd[1]  = distRIV2alloc_gap0_odd_LUT50_1[rballoc];
        }
        else {
            pdlsch0_harq->rb_alloc_even[0] = distRIV2alloc_gap1_even_LUT50_0[rballoc];
            pdlsch0_harq->rb_alloc_odd[0]  = distRIV2alloc_gap1_odd_LUT50_0[rballoc];
            pdlsch0_harq->rb_alloc_even[1] = distRIV2alloc_gap1_even_LUT50_1[rballoc];
            pdlsch0_harq->rb_alloc_odd[1]  = distRIV2alloc_gap1_odd_LUT50_1[rballoc];
        }
        break;

    case 100:
        pdlsch0_harq->nb_rb       = RIV2nb_rb_LUT100[rballoc];
        if (Ngap==0) {
            pdlsch0_harq->rb_alloc_even[0] = distRIV2alloc_gap0_even_LUT100_0[rballoc];
            pdlsch0_harq->rb_alloc_odd[0]  = distRIV2alloc_gap0_odd_LUT100_0[rballoc];
            pdlsch0_harq->rb_alloc_even[1] = distRIV2alloc_gap0_even_LUT100_1[rballoc];
            pdlsch0_harq->rb_alloc_odd[1]  = distRIV2alloc_gap0_odd_LUT100_1[rballoc];
            pdlsch0_harq->rb_alloc_even[2] = distRIV2alloc_gap0_even_LUT100_2[rballoc];
            pdlsch0_harq->rb_alloc_odd[2]  = distRIV2alloc_gap0_odd_LUT100_2[rballoc];
            pdlsch0_harq->rb_alloc_even[3] = distRIV2alloc_gap0_even_LUT100_3[rballoc];
            pdlsch0_harq->rb_alloc_odd[3]  = distRIV2alloc_gap0_odd_LUT100_3[rballoc];
        }
        else {
            pdlsch0_harq->rb_alloc_even[0] = distRIV2alloc_gap1_even_LUT100_0[rballoc];
            pdlsch0_harq->rb_alloc_odd[0]  = distRIV2alloc_gap1_odd_LUT100_0[rballoc];
            pdlsch0_harq->rb_alloc_even[1] = distRIV2alloc_gap1_even_LUT100_1[rballoc];
            pdlsch0_harq->rb_alloc_odd[1]  = distRIV2alloc_gap1_odd_LUT100_1[rballoc];
            pdlsch0_harq->rb_alloc_even[2] = distRIV2alloc_gap1_even_LUT100_2[rballoc];
            pdlsch0_harq->rb_alloc_odd[2]  = distRIV2alloc_gap1_odd_LUT100_2[rballoc];
            pdlsch0_harq->rb_alloc_even[3] = distRIV2alloc_gap1_even_LUT100_3[rballoc];
            pdlsch0_harq->rb_alloc_odd[3]  = distRIV2alloc_gap1_odd_LUT100_3[rballoc];
        }
        break;

    default:
        AssertFatal(0,"Format 1C: Unknown N_RB_DL %d\n",frame_parms->N_RB_DL);
        break;
    }

    compute_llr_offset(frame_parms,
                       pdcch_vars,
                       pdsch_vars,
                       pdlsch0_harq,
                       pdlsch0_harq->nb_rb,
                       subframe);

}

void compute_precoding_info_2cw(uint8_t tpmi, uint8_t tbswap, uint16_t pmi_alloc, LTE_DL_FRAME_PARMS *frame_parms, LTE_DL_UE_HARQ_t *dlsch0_harq, LTE_DL_UE_HARQ_t *dlsch1_harq)
{

switch (tpmi) {
          case 0:
            dlsch0_harq->mimo_mode   = DUALSTREAM_UNIFORM_PRECODING1;
            dlsch1_harq->mimo_mode   = DUALSTREAM_UNIFORM_PRECODING1;
            dlsch0_harq->pmi_alloc   = pmi_extend(frame_parms,0, 1);
            dlsch1_harq->pmi_alloc   = pmi_extend(frame_parms,0, 1);
          break;
          case 1:
            dlsch0_harq->mimo_mode   = DUALSTREAM_UNIFORM_PRECODINGj;
            dlsch1_harq->mimo_mode   = DUALSTREAM_UNIFORM_PRECODINGj;
            dlsch0_harq->pmi_alloc   = pmi_extend(frame_parms,1, 1);
            dlsch1_harq->pmi_alloc   = pmi_extend(frame_parms,1, 1);
          break;
          case 2: // PUSCH precoding
            dlsch0_harq->mimo_mode   = DUALSTREAM_PUSCH_PRECODING;
            dlsch1_harq->mimo_mode   = DUALSTREAM_PUSCH_PRECODING;
            if (tbswap==0){
              dlsch0_harq->pmi_alloc   = pmi_alloc;
              dlsch1_harq->pmi_alloc   = pmi_alloc^0x1555;
            } else {
                dlsch1_harq->pmi_alloc   = pmi_alloc;
                dlsch0_harq->pmi_alloc   = pmi_alloc^0x1555;
            }
#ifdef DEBUG_HARQ
              printf ("\n \n compute_precoding_info_2cw pmi_alloc_new = %d\n", dlsch0_harq->pmi_alloc);
  #endif
          break;
          default:
          break;
        }
}

void compute_precoding_info_1cw(uint8_t tpmi, uint16_t pmi_alloc, LTE_DL_FRAME_PARMS *frame_parms, LTE_DL_UE_HARQ_t *dlsch_harq)
{

switch (tpmi) {
            case 0 :
              dlsch_harq->mimo_mode   = ALAMOUTI;
            break;
            case 1:
              dlsch_harq->mimo_mode   = UNIFORM_PRECODING11;
              dlsch_harq->pmi_alloc   = pmi_extend(frame_parms,0, 0);
            break;
            case 2:
              dlsch_harq->mimo_mode   = UNIFORM_PRECODING1m1;
              dlsch_harq->pmi_alloc   = pmi_extend(frame_parms,1, 0);
            break;
            case 3:
              dlsch_harq->mimo_mode   = UNIFORM_PRECODING1j;
              dlsch_harq->pmi_alloc   = pmi_extend(frame_parms,2, 0);
            break;
            case 4:
              dlsch_harq->mimo_mode   = UNIFORM_PRECODING1mj;
              dlsch_harq->pmi_alloc   = pmi_extend(frame_parms,3, 0);
            break;
            case 5:
              dlsch_harq->mimo_mode   = PUSCH_PRECODING0;
              dlsch_harq->pmi_alloc   = pmi_alloc;//pmi_convert(frame_parms,dlsch0->pmi_alloc,0);
            break;
            case 6:
              dlsch_harq->mimo_mode   = PUSCH_PRECODING1;
              dlsch_harq->pmi_alloc   = pmi_alloc;//pmi_convert(frame_parms,dlsch0->pmi_alloc,1);
            break;
            }
  #ifdef DEBUG_HARQ
              printf ("[DCI UE] I am calling from the UE side pmi_alloc_new = %d with tpmi %d\n", dlsch_harq->pmi_alloc, tpmi);
  #endif
            }

void compute_precoding_info_format2A(uint8_t tpmi,
                                     uint8_t nb_antenna_ports_eNB,
                                     uint8_t tb0_active,
                                     uint8_t tb1_active,
                                     LTE_DL_UE_HARQ_t *dlsch0_harq,
                                     LTE_DL_UE_HARQ_t *dlsch1_harq)
{

    dlsch0_harq->dl_power_off = 0;
    dlsch1_harq->dl_power_off = 0;

    if (nb_antenna_ports_eNB == 2) {
        if ((tb0_active==1) && (tb1_active==1)) {
          dlsch0_harq->mimo_mode = LARGE_CDD;
          dlsch1_harq->mimo_mode = LARGE_CDD;
          dlsch0_harq->dl_power_off = 1;
          dlsch1_harq->dl_power_off = 1;
        } else {
          dlsch0_harq->mimo_mode   = ALAMOUTI;
          dlsch1_harq->mimo_mode   = ALAMOUTI;
        }
      } else if (nb_antenna_ports_eNB == 4) { // 4 antenna case
        if ((tb0_active==1) && (tb1_active==1)) {
          switch (tpmi) {
          case 0: // one layer per transport block
            dlsch0_harq->mimo_mode   = LARGE_CDD;
            dlsch1_harq->mimo_mode   = LARGE_CDD;
            dlsch0_harq->dl_power_off = 1;
            dlsch1_harq->dl_power_off = 1;
            break;

          case 1: // one-layers on TB 0, two on TB 1
            dlsch0_harq->mimo_mode   = LARGE_CDD;
            dlsch1_harq->mimo_mode   = LARGE_CDD;
            dlsch1_harq->Nl          = 2;
            dlsch0_harq->dl_power_off = 1;
            dlsch1_harq->dl_power_off = 1;
            break;

          case 2: // two-layers on TB 0, two on TB 1
            dlsch0_harq->mimo_mode   = LARGE_CDD;
            dlsch1_harq->mimo_mode   = LARGE_CDD;
            dlsch0_harq->Nl          = 2;
            dlsch0_harq->dl_power_off = 1;
            dlsch1_harq->dl_power_off = 1;
            break;

          case 3: //
            LOG_E(PHY,"Illegal value (3) for TPMI in Format 2A DCI\n");
            break;
          }
        } else if (tb0_active == 1) {
          switch (tpmi) {
          case 0: // one layer per transport block
            dlsch0_harq->mimo_mode   = ALAMOUTI;
            dlsch1_harq->mimo_mode   = ALAMOUTI;
            break;

          case 1: // two-layers on TB 0
            dlsch0_harq->mimo_mode   = LARGE_CDD;
            dlsch0_harq->Nl          = 2;
            dlsch0_harq->dl_power_off = 1;
            break;

          case 2: // two-layers on TB 0, two on TB 1
          case 3: //
            LOG_E(PHY,"Illegal value %d for TPMI in Format 2A DCI with one transport block enabled\n",tpmi);
            break;
          }
        } else if (tb1_active == 1) {
          switch (tpmi) {
          case 0: // one layer per transport block
            dlsch0_harq->mimo_mode   = ALAMOUTI;
            dlsch1_harq->mimo_mode   = ALAMOUTI;
            break;

          case 1: // two-layers on TB 0
            dlsch1_harq->mimo_mode   = LARGE_CDD;
            dlsch1_harq->Nl          = 2;
            dlsch0_harq->dl_power_off = 1;
            break;

          case 2: // two-layers on TB 0, two on TB 1
          case 3: //
            LOG_E(PHY,"Illegal value %d for TPMI in Format 2A DCI with one transport block enabled\n",tpmi);
            break;
          }
        }
      }
      //    printf("Format 2A: NPRB=%d (rballoc %x,mcs1 %d, mcs2 %d, frame_type %d N_RB_DL %d,active %d/%d)\n",NPRB,rballoc,mcs1,mcs2,frame_parms->frame_type,frame_parms->N_RB_DL,dlsch0->active,dlsch1->active);
      //printf("UE (%x/%d): Subframe %d Format2A DCI: ndi1 %d, old_ndi1 %d, ndi2 %d, old_ndi2 %d (first tx1 %d, first tx2 %d) harq_status1 %d, harq_status2 %d\n",dlsch0->rnti,harq_pid,subframe,ndi,dlsch0_harq->DCINdi,
      //    dlsch0_harq->first_tx,dlsch1_harq->first_tx,dlsch0_harq->status,dlsch1_harq->status);
      //printf("TBS0 %d, TBS1 %d\n",dlsch0_harq->TBS,dlsch1_harq->TBS);

}

void prepare_dl_decoding_format2_2A(DCI_format_t dci_format,
                                    DCI_INFO_EXTRACTED_t *pdci_info_extarcted,
                                    LTE_DL_FRAME_PARMS *frame_parms,
                                    LTE_UE_PDCCH *pdcch_vars,
                                    LTE_UE_PDSCH *pdsch_vars,
                                    uint16_t rnti,
                                    uint8_t subframe,
                                    LTE_DL_UE_HARQ_t *dlsch0_harq,
                                    LTE_DL_UE_HARQ_t *dlsch1_harq,
                                    LTE_UE_DLSCH_t *pdlsch0,
                                    LTE_UE_DLSCH_t *pdlsch1)
{

    uint8_t  rah  = pdci_info_extarcted->rah;
    uint8_t  mcs1 = pdci_info_extarcted->mcs1;
    uint8_t  mcs2 = pdci_info_extarcted->mcs2;
    uint8_t  rv1  = pdci_info_extarcted->rv1;
    uint8_t  rv2  = pdci_info_extarcted->rv2;
    uint8_t  harq_pid = pdci_info_extarcted->harq_pid;
    uint32_t rballoc  = pdci_info_extarcted->rballoc;
    uint8_t  tbswap   = pdci_info_extarcted->tb_swap;
    uint8_t  tpmi     = pdci_info_extarcted->tpmi;
    uint8_t  TPC      = pdci_info_extarcted->TPC;
    uint8_t  ndi1     = pdci_info_extarcted->ndi1;
    uint8_t  ndi2     = pdci_info_extarcted->ndi2;

    uint8_t TB0_active = 1;
    uint8_t TB1_active = 1;

   // printf("inside prepare pdlsch1->pmi_alloc %d \n",pdlsch1->pmi_alloc);


      if ((rv1 == 1) && (mcs1 == 0)) {
        TB0_active=0;
      }
      if ((rv2 == 1) && (mcs2 == 0)) {
        TB1_active=0;
      }

#ifdef DEBUG_HARQ
      printf("[DCI UE]: TB0 status %d , TB1 status %d\n", TB0_active, TB1_active);
#endif

        dlsch0_harq->mcs      = mcs1;
        dlsch1_harq->mcs      = mcs2;
        dlsch0_harq->rvidx    = rv1;
        dlsch1_harq->rvidx    = rv2;
        dlsch0_harq->DCINdi   = ndi1;
        dlsch1_harq->DCINdi   = ndi2;

        dlsch0_harq->codeword = 0;
        dlsch1_harq->codeword = 1;
        dlsch0_harq->Nl       = 1;
        dlsch1_harq->Nl       = 1;
        dlsch0_harq->delta_PUCCH  = delta_PUCCH_lut[TPC&3];
        dlsch1_harq->delta_PUCCH  = delta_PUCCH_lut[TPC&3];
        dlsch0_harq->dl_power_off = 1;
        dlsch1_harq->dl_power_off = 1;

        pdlsch0->current_harq_pid = harq_pid;
        pdlsch0->harq_ack[subframe].harq_id     = harq_pid;
        pdlsch1->current_harq_pid = harq_pid;
        pdlsch1->harq_ack[subframe].harq_id     = harq_pid;

        // assume two CW are active
        dlsch0_harq->status   = ACTIVE;
        dlsch1_harq->status   = ACTIVE;
        pdlsch0->active = 1;
        pdlsch1->active = 1;
        pdlsch0->rnti = rnti;
        pdlsch1->rnti = rnti;


      if (TB0_active && TB1_active && tbswap==1) {
        dlsch0_harq->codeword = 1;
        dlsch1_harq->codeword = 0;
      }


      if (!TB0_active && TB1_active){
        dlsch1_harq->codeword = 0;
      }

      if (TB0_active && !TB1_active){
        dlsch0_harq->codeword = 0;
      }


      if (TB0_active==0) {
        dlsch0_harq->status = SCH_IDLE;
        pdlsch0->active     = 0;
  #ifdef DEBUG_HARQ
        printf("[DCI UE]: TB0 is deactivated, retransmit TB1 transmit in TM6\n");
  #endif
      }

      if (TB1_active==0) {
        dlsch1_harq->status = SCH_IDLE;
        pdlsch1->active     = 0;
      }

#ifdef DEBUG_HARQ
      printf("[DCI UE]: dlsch0_harq status %d , dlsch1_harq status %d\n", dlsch0_harq->status, dlsch1_harq->status);
#endif

      // compute resource allocation
      if (TB0_active == 1){

        dlsch0_harq->nb_rb = conv_nprb(rah,
                                       rballoc,
                                       frame_parms->N_RB_DL);
        conv_rballoc(rah,
                     rballoc,
                     frame_parms->N_RB_DL,
                     dlsch0_harq->rb_alloc_even);

        dlsch0_harq->rb_alloc_odd[0]= dlsch0_harq->rb_alloc_even[0];
        dlsch0_harq->rb_alloc_odd[1]= dlsch0_harq->rb_alloc_even[1];
        dlsch0_harq->rb_alloc_odd[2]= dlsch0_harq->rb_alloc_even[2];
        dlsch0_harq->rb_alloc_odd[3]= dlsch0_harq->rb_alloc_even[3];

        if (TB1_active == 1){
          dlsch1_harq->rb_alloc_even[0]= dlsch0_harq->rb_alloc_even[0];
          dlsch1_harq->rb_alloc_even[1]= dlsch0_harq->rb_alloc_even[1];
          dlsch1_harq->rb_alloc_even[2]= dlsch0_harq->rb_alloc_even[2];
          dlsch1_harq->rb_alloc_even[3]= dlsch0_harq->rb_alloc_even[3];
          dlsch1_harq->rb_alloc_odd[0] = dlsch0_harq->rb_alloc_odd[0];
          dlsch1_harq->rb_alloc_odd[1] = dlsch0_harq->rb_alloc_odd[1];
          dlsch1_harq->rb_alloc_odd[2] = dlsch0_harq->rb_alloc_odd[2];
          dlsch1_harq->rb_alloc_odd[3] = dlsch0_harq->rb_alloc_odd[3];

          dlsch1_harq->nb_rb = dlsch0_harq->nb_rb;

          //dlsch0_harq->Nl       = 1;
          //dlsch1_harq->Nl       = 1;
        }
      } else if ((TB0_active == 0) && (TB1_active == 1)){

          conv_rballoc(rah,
                       rballoc,
                       frame_parms->N_RB_DL,
                       dlsch1_harq->rb_alloc_even);

          dlsch1_harq->rb_alloc_odd[0]= dlsch1_harq->rb_alloc_even[0];
          dlsch1_harq->rb_alloc_odd[1]= dlsch1_harq->rb_alloc_even[1];
          dlsch1_harq->rb_alloc_odd[2]= dlsch1_harq->rb_alloc_even[2];
          dlsch1_harq->rb_alloc_odd[3]= dlsch1_harq->rb_alloc_even[3];
          dlsch1_harq->nb_rb = conv_nprb(rah,
                                         rballoc,
                                         frame_parms->N_RB_DL);
        }


      // compute precoding matrix + mimo mode
      if(dci_format == format2)
      {
      if ((TB0_active) && (TB1_active)){  //two CW active
        compute_precoding_info_2cw(tpmi, tbswap, pdlsch0->pmi_alloc,frame_parms, dlsch0_harq, dlsch1_harq);

   //   printf("[DCI UE 1]: dlsch0_harq status %d , dlsch1_harq status %d\n", dlsch0_harq->status, dlsch1_harq->status);
      } else if ((TB0_active) && (!TB1_active))  { // only CW 0 active
        compute_precoding_info_1cw(tpmi, pdlsch0->pmi_alloc, frame_parms, dlsch0_harq);
      } else {
        compute_precoding_info_1cw(tpmi, pdlsch1->pmi_alloc, frame_parms, dlsch1_harq);
       // printf("I am doing compute_precoding_info_1cw with tpmi %d \n", tpmi);
      }
      //printf(" UE DCI harq0 MIMO mode = %d\n", dlsch0_harq->mimo_mode);
      if ((frame_parms->nb_antenna_ports_eNB == 1) && (TB0_active))
        dlsch0_harq->mimo_mode   = SISO;
      }
      else
      {
        compute_precoding_info_format2A( tpmi,
                                      frame_parms->nb_antenna_ports_eNB,
                                      TB0_active,
                                      TB1_active,
                                      dlsch0_harq,
                                      dlsch1_harq);
      }
  //    printf("[DCI UE 2]: dlsch0_harq status %d , dlsch1_harq status %d\n", dlsch0_harq->status, dlsch1_harq->status);
      // reset round + compute Qm
      if (TB0_active) {
       // printf("TB0 ndi1 =%d, dlsch0_harq->DCINdi =%d, dlsch0_harq->first_tx = %d\n", ndi1, dlsch0_harq->DCINdi, dlsch0_harq->first_tx);
        if ((ndi1!=dlsch0_harq->DCINdi) || (dlsch0_harq->first_tx==1))  {
          dlsch0_harq->round = 0;
           dlsch0_harq->status = ACTIVE;
           dlsch0_harq->DCINdi = ndi1;

          //LOG_I(PHY,"[UE] DLSCH: New Data Indicator CW0 subframe %d (pid %d, round %d)\n",
          //           subframe,harq_pid,dlsch0_harq->round);
          if ( dlsch0_harq->first_tx==1) {
	    //            LOG_D(PHY,"Format 2 DCI First TX0: Clearing flag\n");
            dlsch0_harq->first_tx = 0;
          }
        }
	/*else if (rv1  != 0 )
	  //NDI has not been toggled but rv was increased by eNB: retransmission
	  {
	    if(dlsch0_harq->status == SCH_IDLE) {
            // skip pdsch decoding and report ack
	      //dlsch0_harq->status   = SCH_IDLE;
            pdlsch0->active       = 0;
            pdlsch0->harq_ack[subframe].ack = 1;
            pdlsch0->harq_ack[subframe].harq_id = harq_pid;
            pdlsch0->harq_ack[subframe].send_harq_status = 1;
	    }*/

        // if Imcs in [29..31] TBS is assumed to be as determined from DCI transported in the latest
        // PDCCH for the same trasport block using Imcs in [0 .. 28]
        if(dlsch0_harq->mcs <= 28)
        {
            dlsch0_harq->TBS = TBStable[get_I_TBS(dlsch0_harq->mcs)][dlsch0_harq->nb_rb-1];
            LOG_D(PHY,"[UE] DLSCH: New TBS CW0 subframe %d (pid %d, round %d) TBS %d \n",
                       subframe,harq_pid,dlsch0_harq->round, dlsch0_harq->TBS);
        }
        else
        {
            LOG_D(PHY,"[UE] DLSCH: Keep the same TBS CW0 subframe %d (pid %d, round %d) TBS %d \n",
                       subframe,harq_pid,dlsch0_harq->round, dlsch0_harq->TBS);
        }
        //if(dlsch0_harq->Nl == 2)
        //dlsch0_harq->TBS = TBStable[get_I_TBS(dlsch0_harq->mcs)][(dlsch0_harq->nb_rb<<1)-1];
        if (mcs1 <= 28)
            dlsch0_harq->Qm = get_Qm(mcs1);
        else if (mcs1<=31)
            dlsch0_harq->Qm = (mcs1-28)<<1;
      }

   //   printf("[DCI UE 3]: dlsch0_harq status %d , dlsch1_harq status %d\n", dlsch0_harq->status, dlsch1_harq->status);

      if (TB1_active) {
       // printf("TB1 ndi2 =%d, dlsch1_harq->DCINdi =%d, dlsch1_harq->first_tx = %d\n", ndi2, dlsch1_harq->DCINdi, dlsch1_harq->first_tx);
        if ((ndi2!=dlsch1_harq->DCINdi) || (dlsch1_harq->first_tx==1)) {
          dlsch1_harq->round = 0;
          dlsch1_harq->status = ACTIVE;
          dlsch1_harq->DCINdi = ndi2;
          //LOG_I(PHY,"[UE] DLSCH: New Data Indicator CW1 subframe %d (pid %d, round %d)\n",
          //           subframe,harq_pid,dlsch0_harq->round);
          if (dlsch1_harq->first_tx==1) {
	    //            LOG_D(PHY,"Format 2 DCI First TX1: Clearing flag\n");
            dlsch1_harq->first_tx = 0;
          }
        }
	/*else if (rv1  != 0 )
	//NDI has not been toggled but rv was increased by eNB: retransmission
	  {
	    if(dlsch1_harq->status == SCH_IDLE) {
            // skip pdsch decoding and report ack
	      //dlsch1_harq->status   = SCH_IDLE;
            pdlsch1->active       = 0;
            pdlsch1->harq_ack[subframe].ack = 1;
            pdlsch1->harq_ack[subframe].harq_id = harq_pid;
            pdlsch1->harq_ack[subframe].send_harq_status = 1;
         }
	  }*/

        // if Imcs in [29..31] TBS is assumed to be as determined from DCI transported in the latest
        // PDCCH for the same trasport block using Imcs in [0 .. 28]
        if(dlsch1_harq->mcs <= 28)
        {
            dlsch1_harq->TBS = TBStable[get_I_TBS(dlsch1_harq->mcs)][dlsch1_harq->nb_rb-1];
            LOG_D(PHY,"[UE] DLSCH: New TBS CW1 subframe %d (pid %d, round %d) TBS %d \n",
                       subframe,harq_pid,dlsch1_harq->round, dlsch1_harq->TBS);
        }
        else
        {
            LOG_D(PHY,"[UE] DLSCH: Keep the same TBS CW1 subframe %d (pid %d, round %d) TBS %d \n",
                       subframe,harq_pid,dlsch1_harq->round, dlsch1_harq->TBS);
        }
        if (mcs2 <= 28)
            dlsch1_harq->Qm = get_Qm(mcs2);
        else if (mcs1<=31)
            dlsch1_harq->Qm = (mcs2-28)<<1;
      }


      compute_llr_offset(frame_parms,
                         pdcch_vars,
                         pdsch_vars,
                         dlsch0_harq,
                         dlsch0_harq->nb_rb,
                         subframe);


 /* #ifdef DEBUG_HARQ
      printf("[DCI UE]: dlsch0_harq status %d , dlsch1_harq status %d\n", dlsch0_harq->status, dlsch1_harq->status);
      printf("[DCI UE]: TB0_active %d , TB1_active %d\n", TB0_active, TB1_active);
      if (dlsch0 != NULL && dlsch1 != NULL)
        printf("[DCI UE] dlsch0_harq status = %d, dlsch1_harq status = %d\n", dlsch0_harq->status, dlsch1_harq->status);
      else if (dlsch0 == NULL && dlsch1 != NULL)
        printf("[DCI UE] dlsch0_harq NULL dlsch1_harq status = %d\n", dlsch1_harq->status);
      else if (dlsch0 != NULL && dlsch1 == NULL)
        printf("[DCI UE] dlsch1_harq NULL dlsch0_harq status = %d\n", dlsch0_harq->status);
  #endif*/
}

int generate_ue_dlsch_params_from_dci(int frame,
                                      uint8_t subframe,
                                      void *dci_pdu,
                                      uint16_t rnti,
                                      DCI_format_t dci_format,
                                      LTE_UE_PDCCH *pdcch_vars,
                                      LTE_UE_PDSCH *pdsch_vars,
                                      LTE_UE_DLSCH_t **dlsch,
                                      LTE_DL_FRAME_PARMS *frame_parms,
                                      PDSCH_CONFIG_DEDICATED *pdsch_config_dedicated,
                                      uint16_t si_rnti,
                                      uint16_t ra_rnti,
                                      uint16_t p_rnti,
                                      uint8_t beamforming_mode,
                                      uint16_t tc_rnti)
{

    uint8_t harq_pid=0;
    uint8_t frame_type=frame_parms->frame_type;
    uint8_t tpmi=0;
    LTE_UE_DLSCH_t *dlsch0=NULL,*dlsch1=NULL;
    LTE_DL_UE_HARQ_t *dlsch0_harq=NULL,*dlsch1_harq=NULL;

    DCI_INFO_EXTRACTED_t dci_info_extarcted;
    uint8_t status=0;

    if (!dlsch[0]) return -1;

  #ifdef DEBUG_DCI
    LOG_D(PHY,"dci_tools.c: Filling ue dlsch params -> rnti %x, SFN/SF %d/%d, dci_format %s\n",
        rnti,
        frame%1024,
        subframe,
        (dci_format==format0?  "Format 0":(
         dci_format==format1?  "format 1":(
         dci_format==format1A? "format 1A":(
         dci_format==format1B? "format 1B":(
         dci_format==format1C? "format 1C":(
         dci_format==format1D? "format 1D":(
         dci_format==format1E_2A_M10PRB? "format 1E_2A_M10PRB":(
         dci_format==format2?  "format 2":(
         dci_format==format2A? "format 2A":(
         dci_format==format2B? "format 2B":(
         dci_format==format2C? "format 2C":(
         dci_format==format2D? "format 2D":(
         dci_format==format3?  "format 3": "UNKNOWN"
         ))))))))))))));
  #endif

    memset(&dci_info_extarcted,0,sizeof(dci_info_extarcted));
    switch (dci_format) {

    case format0:   // This is an ULSCH allocation so nothing here, inform MAC
      LOG_E(PHY,"format0 not possible\n");
      return(-1);
      break;

    case format1A:
    {
      // extract dci infomation
#ifdef DEBUG_DCI
      LOG_I(PHY,"[DCI-FORMAT-1A] AbsSubframe %d.%d extarct dci info \n", frame, subframe);
#endif
      extract_dci1A_info(frame_parms->N_RB_DL,
                         frame_type,
                         dci_pdu,
                         &dci_info_extarcted);


      // check dci content
      dlsch0 = dlsch[0];
      dlsch0->active = 0;
      dlsch0_harq   = dlsch[0]->harq_processes[dci_info_extarcted.harq_pid];
#ifdef DEBUG_DCI
      LOG_I(PHY,"[DCI-FORMAT-1A] AbsSubframe %d.%d check dci coherency \n", frame, subframe);
#endif
      status = check_dci_format1_1a_coherency(format1A,
                                              frame_parms->N_RB_DL,
                                              rnti,
                                              tc_rnti,
                                              si_rnti,
                                              ra_rnti,
                                              p_rnti,frame,subframe,
                                              &dci_info_extarcted,
                                              dlsch0_harq);
      if(status == 0)
      {
        printf("bad DCI 1A !!! \n");
        return(-1);
      }

      // dci is correct ==> update internal structure and prepare dl decoding
#ifdef DEBUG_DCI
      LOG_I(PHY,"[DCI-FORMAT-1A] AbsSubframe %d.%d prepare dl decoding \n", frame, subframe);
#endif
      prepare_dl_decoding_format1_1A(format1A,
                                     frame_parms->N_RB_DL,
                                     &dci_info_extarcted,
                                     frame_parms,
                                     pdcch_vars,
                                     pdsch_vars,
                                     subframe,
                                     rnti,
									 tc_rnti,
                                     si_rnti,
                                     ra_rnti,
                                     p_rnti,
                                     dlsch0_harq,
                                     dlsch0);



      break;
    }
    case format1C:
    {
      // extract dci infomation
#ifdef DEBUG_DL_DECODING
      LOG_I(PHY,"[DCI Format-1C] extact dci information \n");
#endif
      extract_dci1C_info(frame_parms->N_RB_DL,
                         frame_type,
                         dci_pdu,
                         &dci_info_extarcted);


      // check dci content
#ifdef DEBUG_DL_DECODING
      LOG_I(PHY,"[DCI Format-1C] check dci content \n");
#endif
      dlsch0 = dlsch[0];
      dlsch0->active = 0;
      dlsch0_harq = dlsch[0]->harq_processes[dci_info_extarcted.harq_pid];

      status = check_dci_format1c_coherency(frame_parms->N_RB_DL,
                                            &dci_info_extarcted,