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/**
*
* \section COPYRIGHT
*
* Copyright 2013-2021 Software Radio Systems Limited
*
* By using this file, you agree to the terms and conditions set
* forth in the LICENSE file which can be found at the top level of
* the distribution.
*
*/
#ifndef SRSRAN_PHY_COMMON_NR_H
#define SRSRAN_PHY_COMMON_NR_H
#include "phy_common.h"
#include <inttypes.h>
#ifdef __cplusplus
extern "C" {
#endif
/**
* @brief Defines the number of symbols per slot. Defined by TS 38.211 v15.8.0 Table 4.3.2-1.
*/
#define SRSRAN_NSYMB_PER_SLOT_NR 14U
/**
* @brief Defines the resource grid size in physical resource elements (frequency and time domain)
*/
#define SRSRAN_SLOT_LEN_RE_NR(nof_prb) (nof_prb * SRSRAN_NRE * SRSRAN_NSYMB_PER_SLOT_NR)
/**
* @brief Minimum subframe length in samples for a given number of PRB
*/
#define SRSRAN_SF_LEN_PRB_NR(nof_prb) (srsran_min_symbol_sz_rb(nof_prb) * 15)
#define SRSRAN_SLOT_MAX_LEN_RE_NR (SRSRAN_SLOT_LEN_RE_NR(SRSRAN_MAX_PRB_NR))
#define SRSRAN_SLOT_MAX_NOF_BITS_NR (SRSRAN_SLOT_MAX_LEN_RE_NR * SRSRAN_MAX_QM)
#define SRSRAN_MAX_LAYERS_NR 8
/**
* @brief Defines the maximum numerology supported. Defined by TS 38.211 v15.8.0 Table 4.3.2-1.
*/
#define SRSRAN_NR_MAX_NUMEROLOGY 4U
/**
* @brief Defines the symbol duration, including cyclic prefix
*/
#define SRSRAN_SUBC_SPACING_NR(NUM) (15000U << (NUM))
/**
* @brief Defines the number of slots per SF. Defined by TS 38.211 v15.8.0 Table 4.3.2-1.
*/
#define SRSRAN_NSLOTS_PER_SF_NR(NUM) (1U << (NUM))
/**
* @brief Defines the number of slots per frame. Defined by TS 38.211 v15.8.0 Table 4.3.2-1.
*/
#define SRSRAN_NSLOTS_PER_FRAME_NR(NUM) (SRSRAN_NSLOTS_PER_SF_NR(NUM) * SRSRAN_NOF_SF_X_FRAME)
/**
* @brief Bounds slot index into the frame
*/
#define SRSRAN_SLOT_NR_MOD(NUM, N) ((N) % SRSRAN_NSLOTS_PER_FRAME_NR(NUM))
/**
* @brief Maximum Carrier identification value. Defined by TS 38.331 v15.10.0 as PhysCellId from 0 to 1007.
*/
#define SRSRAN_MAX_ID_NR 1007
/**
* @brief Maximum number of physical resource blocks (PRB) that a 5G NR can have. This is defined by TS 38.331 v15.10.0
* as maxNrofPhysicalResourceBlocks
*/
#define SRSRAN_MAX_PRB_NR 275
/**
* @brief Maximum start sub-carrier index for the carrier relative point
*/
#define SRSRAN_MAX_START_NR 2199
/**
* @brief defines the maximum number of Aggregation levels: 1, 2, 4, 8 and 16
*/
#define SRSRAN_SEARCH_SPACE_NOF_AGGREGATION_LEVELS_NR 5
/**
* @brief defines the maximum number of RE
*/
#define SRSRAN_PDCCH_MAX_RE ((SRSRAN_NRE - 3U) * (1U << (SRSRAN_SEARCH_SPACE_NOF_AGGREGATION_LEVELS_NR - 1U)) * 6U)
/**
* @brief defines the maximum number of candidates for a given search-space and aggregation level according to TS 38.331
* SearchSpace sequence
*/
#define SRSRAN_SEARCH_SPACE_MAX_NOF_CANDIDATES_NR 8
/**
* @brief defines the maximum number of monitored PDCCH candidates per slot and per serving cell according to TS 38.213
* Table 10.1-2
*/
#define SRSRAN_MAX_NOF_CANDIDATES_SLOT_NR 44
/**
* @brief defines the maximum number of resource elements per PRB
* @remark Defined in TS 38.214 V15.10.0 5.1.3.2 Transport block size determination, point 1, second bullet
*/
#define SRSRAN_MAX_NRE_NR 156
/**
* @brief defines the maximum number of resource elements in a PDSCH transmission
* @remark deduced from in TS 36.214 V15.10.0 5.1.3.2 Transport block size determination
*/
#define SRSRAN_PDSCH_MAX_RE_NR (SRSRAN_MAX_NRE_NR * SRSRAN_MAX_PRB_NR)
/**
* @brief Maximum number of PDSCH time domain resource allocations. This is defined by TS 38.331 v15.10.0
* as maxNrofDL-Allocations
*/
#define SRSRAN_MAX_NOF_TIME_RA 16
/**
* @brief Maximum dl-DataToUL-ACK value. This is defined by TS 38.331 v15.10.1 in PUCCH-Config
*/
#define SRSRAN_MAX_NOF_DL_DATA_TO_UL 8
/**
* @brief Maximum number of HARQ processes in the DL, signaled through RRC (PDSCH-ServingCellConfig)
*/
#define SRSRAN_MAX_HARQ_PROC_DL_NR 16 // 3GPP TS 38.214 version 15.3.0 Sec. 5.1 or nrofHARQ-ProcessesForPDSCH
/**
* @brief Default number of HARQ processes in the DL, if config is absent.
*/
#define SRSRAN_DEFAULT_HARQ_PROC_DL_NR 8
/**
* @brief Maximum number of HARQ processes in the UL, signaled through RRC (ConfiguredGrantConfig)
*/
#define SRSRAN_MAX_HARQ_PROC_UL_NR 16 // 3GPP TS 38.214 version 15.3.0 Sec. 6.1
/**
* @brief SSB bandwidth in subcarriers, described in TS 38.211 section 7.4.3.1 Time-frequency structure of an SS/PBCH
* block
*/
#define SRSRAN_SSB_BW_SUBC 240
/**
* @brief SSB duration in symbols, described in TS 38.211 section 7.4.3.1 Time-frequency structure of an SS/PBCH block
*/
#define SRSRAN_SSB_DURATION_NSYMB 4
/**
* @brief Number of NR N_id_1 Physical Cell Identifier (PCI) as described in TS 38.211 section 7.4.2.1 Physical-layer
* cell identities
*/
#define SRSRAN_NOF_NID_1_NR 336
/**
* @brief Number of NR N_id_2 Physical Cell Identifier (PCI) as described in TS 38.211 section 7.4.2.1 Physical-layer
* cell identities
*/
#define SRSRAN_NOF_NID_2_NR 3
/**
* @brief Number of NR N_id Physical Cell Identifier (PCI) as described in TS 38.211 section 7.4.2.1 Physical-layer
* cell identities
*/
#define SRSRAN_NOF_NID_NR (SRSRAN_NOF_NID_1_NR * SRSRAN_NOF_NID_2_NR)
/**
* @brief Compute N_id_1 from the Physical Cell Identifier (PCI) as described in TS 38.211 section 7.4.2.1
* Physical-layer cell identities
*/
#define SRSRAN_NID_1_NR(N_ID) ((N_ID) / SRSRAN_NOF_NID_2_NR)
/**
* @brief Compute N_id_2 from the Physical Cell Identifier (PCI) as described in TS 38.211 section 7.4.2.1
* Physical-layer cell identities
*/
#define SRSRAN_NID_2_NR(N_ID) ((N_ID) % SRSRAN_NOF_NID_2_NR)
/**
* @brief Compute Physical Cell Identifier (PCI) N_id from N_id_1 and N_id_2
*/
#define SRSRAN_NID_NR(NID_1, NID_2) (SRSRAN_NOF_NID_2_NR * (NID_1) + (NID_2))
/**
* @brief SSB number of resource elements, described in TS 38.211 section 7.4.3.1 Time-frequency structure of an SS/PBCH
* block
*/
#define SRSRAN_SSB_NOF_RE (SRSRAN_SSB_BW_SUBC * SRSRAN_SSB_DURATION_NSYMB)
/**
* @brief Symbol index with extended CP
*/
#define SRSRAN_EXT_CP_SYMBOL(SCS) (7U << (uint32_t)(SCS))
typedef enum SRSRAN_API {
srsran_coreset_mapping_type_non_interleaved = 0,
srsran_coreset_mapping_type_interleaved,
} srsran_coreset_mapping_type_t;
typedef enum SRSRAN_API {
srsran_coreset_bundle_size_n2 = 0,
srsran_coreset_bundle_size_n3,
srsran_coreset_bundle_size_n6,
} srsran_coreset_bundle_size_t;
typedef enum SRSRAN_API {
srsran_coreset_precoder_granularity_contiguous = 0,
srsran_coreset_precoder_granularity_reg_bundle
} srsran_coreset_precoder_granularity_t;
/**
* @brief PDSCH mapping type
* @remark Described in TS 38.331 V15.10.0 Section PDSCH-TimeDomainResourceAllocationList
*/
typedef enum SRSRAN_API { srsran_sch_mapping_type_A = 0, srsran_sch_mapping_type_B } srsran_sch_mapping_type_t;
/**
* @brief Search Space (SS) type
* @remark Described in TS 38.213 V15.10.0 Section 10.1 UE procedure for determining physical downlink control channel
* assignment
*/
typedef enum SRSRAN_API {
srsran_search_space_type_common_0 = 0, ///< configured by pdcch-ConfigSIB1 in MIB or by searchSpaceSIB1 in
///< PDCCH-ConfigCommon or by searchSpaceZero in PDCCH-ConfigCommon
srsran_search_space_type_common_0A, ///< configured by searchSpaceOtherSystemInformation in PDCCH-ConfigCommon
srsran_search_space_type_common_1, ///< configured by ra-SearchSpace in PDCCH-ConfigCommon
srsran_search_space_type_common_2, ///< configured by pagingSearchSpace in PDCCH-ConfigCommon
srsran_search_space_type_common_3, ///< configured by SearchSpace in PDCCH-Config with searchSpaceType = common
srsran_search_space_type_ue, ///< configured by SearchSpace in PDCCH-Config with searchSpaceType = ue-Specific
srsran_search_space_type_rar, ///< Indicates that a grant was given by MAC RAR as described in TS 38.213 clause 8.2
srsran_search_space_type_cg ///< Indicates that a grant was given by Configured Grant from the upper layers
} srsran_search_space_type_t;
/**
* @brief Helper macro to get if a search space type is common or not
*/
#define SRSRAN_SEARCH_SPACE_IS_COMMON(SS_TYPE) ((SS_TYPE) < srsran_search_space_type_ue)
/**
* @brief RAR content length in bits (see TS 38.321 Sec 6.2.3)
*/
#define SRSRAN_RAR_UL_GRANT_NBITS (27)
/**
* @brief Indicates the MCS table the UE shall use for PDSCH and/or PUSCH without transform precoding
*/
typedef enum SRSRAN_API {
srsran_mcs_table_64qam = 0,
srsran_mcs_table_256qam,
srsran_mcs_table_qam64LowSE,
srsran_mcs_table_N
} srsran_mcs_table_t;
/**
* @brief RNTI types
* @remark Usage described in TS 38.321 Table 7.1-2: RNTI usage.
*/
typedef enum SRSRAN_API {
srsran_rnti_type_c = 0,
srsran_rnti_type_p, ///< @brief Paging and System Information change notification (PCH)
srsran_rnti_type_si, ///< @brief Broadcast of System Information (DL-SCH)
srsran_rnti_type_ra, ///< @brief Random Access Response (DL-SCH)
srsran_rnti_type_tc, ///< @brief Contention Resolution (when no valid C-RNTI is available) (DL-SCH)
srsran_rnti_type_cs, ///< @brief Configured scheduled unicast transmission (DL-SCH, UL-SCH)
srsran_rnti_type_sp_csi, ///< @brief Activation of Semi-persistent CSI reporting on PUSCH
srsran_rnti_type_mcs_c, ///< @brief Dynamically scheduled unicast transmission (DL-SCH)
} srsran_rnti_type_t;
/**
* @brief DCI formats
* @remark Described in TS 38.212 V15.9.0 Section 7.3.1 DCI formats
*/
typedef enum SRSRAN_API {
srsran_dci_format_nr_0_0 = 0, ///< @brief Scheduling of PUSCH in one cell
srsran_dci_format_nr_0_1, ///< @brief Scheduling of PUSCH in one cell
srsran_dci_format_nr_1_0, ///< @brief Scheduling of PDSCH in one cell
srsran_dci_format_nr_1_1, ///< @brief Scheduling of PDSCH in one cell
srsran_dci_format_nr_2_0, ///< @brief Notifying a group of UEs of the slot format
srsran_dci_format_nr_2_1, ///< @brief Notifying a group of UEs of the PRB(s) and OFDM symbol(s) where UE may assume no
///< transmission is intended for the UE
srsran_dci_format_nr_2_2, ///< @brief Transmission of TPC commands for PUCCH and PUSCH
srsran_dci_format_nr_2_3, ///< @brief Transmission of a group of TPC commands for SRS transmissions by one or more UEs
srsran_dci_format_nr_rar, ///< @brief Scheduling a transmission of PUSCH from RAR
srsran_dci_format_nr_cg, ///< @brief Scheduling of PUSCH using a configured grant
SRSRAN_DCI_FORMAT_NR_COUNT ///< @brief Number of DCI formats
} srsran_dci_format_nr_t;
/**
* @brief Overhead configuration provided by higher layers
* @remark Described in TS 38.331 V15.10.0 PDSCH-ServingCellConfig
* @remark Described in TS 38.331 V15.10.0 PUSCH-ServingCellConfig
*/
typedef enum SRSRAN_API {
srsran_xoverhead_0 = 0,
srsran_xoverhead_6,
srsran_xoverhead_12,
srsran_xoverhead_18
} srsran_xoverhead_t;
/**
* @brief PDSCH HARQ ACK codebook configuration
* @remark Described in TS 38.331 V15.10.0 PhysicalCellGroupConfig
*/
typedef enum SRSRAN_API {
srsran_pdsch_harq_ack_codebook_none = 0,
srsran_pdsch_harq_ack_codebook_semi_static,
srsran_pdsch_harq_ack_codebook_dynamic,
} srsran_harq_ack_codebook_t;
/**
* @brief PDSCH/PUSCH Resource allocation configuration
* @remark Described in TS 38.331 V15.10.0 PhysicalCellGroupConfig
*/
typedef enum SRSRAN_API {
srsran_resource_alloc_type0 = 0,
srsran_resource_alloc_type1,
srsran_resource_alloc_dynamic,
} srsran_resource_alloc_t;
/**
* @brief Subcarrier spacing 15 or 30 kHz <6GHz and 60 or 120 kHz >6GHz
* @remark Described in TS 38.331 V15.10.0 subcarrier spacing
*/
typedef enum SRSRAN_API {
srsran_subcarrier_spacing_15kHz = 0,
srsran_subcarrier_spacing_30kHz,
srsran_subcarrier_spacing_60kHz,
srsran_subcarrier_spacing_120kHz,
srsran_subcarrier_spacing_240kHz,
srsran_subcarrier_spacing_invalid
} srsran_subcarrier_spacing_t;
typedef enum SRSRAN_API {
SRSRAN_SSB_PATTERN_A = 0, // FR1, 15 kHz SCS
SRSRAN_SSB_PATTERN_B, // FR1, 30 kHz SCS
SRSRAN_SSB_PATTERN_C, // FR1, 30 kHz SCS
SRSRAN_SSB_PATTERN_D, // FR2, 120 kHz SCS
SRSRAN_SSB_PATTERN_E, // FR2, 240 kHz SCS
SRSRAN_SSB_PATTERN_INVALID,
} srsran_ssb_patern_t;
typedef enum SRSRAN_API {
SRSRAN_DUPLEX_MODE_FDD = 0, // Paired
SRSRAN_DUPLEX_MODE_TDD, // Unpaired
SRSRAN_DUPLEX_MODE_SDL, // Supplementary DownLink
SRSRAN_DUPLEX_MODE_SUL, // Supplementary UpLink
SRSRAN_DUPLEX_MODE_INVALID
} srsran_duplex_mode_t;
/**
* @brief NR carrier parameters. It is a combination of fixed cell and bandwidth-part (BWP)
*/
typedef struct SRSRAN_API {
uint32_t pci;
uint32_t absolute_frequency_ssb;
uint32_t absolute_frequency_point_a;
uint32_t offset_to_carrier; ///< Offset between point A and the lowest subcarrier of the lowest RB
srsran_subcarrier_spacing_t scs;
uint32_t nof_prb; ///< @brief See TS 38.101-1 Table 5.3.2-1 for more details
uint32_t start;
uint32_t max_mimo_layers; ///< @brief DL: Indicates the maximum number of MIMO layers to be used for PDSCH in all BWPs
///< of this serving cell. (see TS 38.212 [17], clause 5.4.2.1). UL: Indicates the maximum
///< MIMO layer to be used for PUSCH in all BWPs of the normal UL of this serving cell (see
///< TS 38.212 [17], clause 5.4.2.1)
} srsran_carrier_nr_t;
/**
* @brief NR Slot parameters. It contains parameters that change in a slot basis.
*/
typedef struct SRSRAN_API {
/// Slot index in the radio frame
uint32_t idx;
/// Left for future parameters
/// ...
} srsran_slot_cfg_t;
/**
* @brief Min number of OFDM symbols in a control resource set.
*/
#define SRSRAN_CORESET_DURATION_MIN 1
/**
* @brief Max number of OFDM symbols in a control resource set. Specified in TS 38.331 V15.10.0 as maxCoReSetDuration
*/
#define SRSRAN_CORESET_DURATION_MAX 3
/**
* @brief Number of possible CORESET frequency resources.
*/
#define SRSRAN_CORESET_FREQ_DOMAIN_RES_SIZE 45
/**
* @brief Max value for shift index
*/
#define SRSRAN_CORESET_SHIFT_INDEX_MAX (SRSRAN_CORESET_NOF_PRB_MAX - 1)
/**
* @brief CORESET parameters as defined in TS 38.331 V15.10.0 - ControlResourceSet
*/
typedef struct SRSRAN_API {
uint32_t id;
srsran_coreset_mapping_type_t mapping_type;
uint32_t duration;
bool freq_resources[SRSRAN_CORESET_FREQ_DOMAIN_RES_SIZE];
srsran_coreset_bundle_size_t interleaver_size;
bool dmrs_scrambling_id_present;
uint32_t dmrs_scrambling_id;
srsran_coreset_precoder_granularity_t precoder_granularity;
srsran_coreset_bundle_size_t reg_bundle_size;
uint32_t shift_index;
/** Missing TCI parameters */
} srsran_coreset_t;
/**
* @brief SearchSpace parameters as defined in TS 38.331 v15.10.0 SearchSpace sequence
*/
typedef struct SRSRAN_API {
uint32_t id;
uint32_t coreset_id;
uint32_t duration; ///< SS duration length in slots
srsran_search_space_type_t type; ///< Sets the SS type, common (multiple types) or UE specific
srsran_dci_format_nr_t formats[SRSRAN_DCI_FORMAT_NR_COUNT]; ///< Specifies the DCI formats that shall be searched
uint32_t nof_formats;
uint32_t nof_candidates[SRSRAN_SEARCH_SPACE_NOF_AGGREGATION_LEVELS_NR];
} srsran_search_space_t;
/**
* @brief TDD pattern configuration
*/
typedef struct SRSRAN_API {
uint32_t period_ms; ///< Period in milliseconds, set to 0 if not present
uint32_t nof_dl_slots; ///< Number of consecutive full DL slots at the beginning of each DL-UL pattern
uint32_t nof_dl_symbols; ///< Number of consecutive DL symbols in the beginning of the slot following the last DL slot
uint32_t nof_ul_slots; ///< Number of consecutive full UL slots at the end of each DL-UL pattern
uint32_t nof_ul_symbols; ///< Number of consecutive UL symbols in the end of the slot preceding the first full UL slot
} srsran_tdd_pattern_t;
/**
* @brief TDD configuration as described in TS 38.331 v15.10.0 TDD-UL-DL-ConfigCommon
*/
typedef struct SRSRAN_API {
srsran_tdd_pattern_t pattern1;
srsran_tdd_pattern_t pattern2;
} srsran_tdd_config_nr_t;
/**
* @brief Describes a measurement based on NZP-CSI-RS or SSB-CSI
* @note Used for tracking RSRP, SNR, CFO, SFO, and so on
* @note srsran_csi_channel_measurements_t is used for CSI report generation
*/
typedef struct SRSRAN_API {
float rsrp; ///< Linear scale RSRP
float rsrp_dB; ///< Logarithm scale RSRP relative to full-scale
float epre; ///< Linear scale EPRE
float epre_dB; ///< Logarithm scale EPRE relative to full-scale
float n0; ///< Linear noise level
float n0_dB; ///< Logarithm scale noise level relative to full-scale
float snr_dB; ///< Signal to noise ratio in decibels
float cfo_hz; ///< Carrier frequency offset in Hz. Only set if more than 2 symbols are available in a TRS set
float cfo_hz_max; ///< Maximum CFO in Hz that can be measured. It is set to 0 if CFO cannot be estimated
float delay_us; ///< Average measured delay in microseconds
uint32_t nof_re; ///< Number of available RE for the measurement, it can be used for weighting among different
///< measurements
} srsran_csi_trs_measurements_t;
/**
* @brief Get the RNTI type name for NR
* @param rnti_type RNTI type name
* @return Constant string with the RNTI type name
*/
SRSRAN_API const char* srsran_rnti_type_str(srsran_rnti_type_t rnti_type);
/**
* @brief Get the short RNTI type name for NR
* @param rnti_type RNTI type name
* @return Constant string with the short RNTI type name
*/
SRSRAN_API const char* srsran_rnti_type_str_short(srsran_rnti_type_t rnti_type);
/**
* @brief Get the RNTI type name for NR
* @param rnti_type RNTI type name
* @return Constant string with the RNTI type name
*/
SRSRAN_API const char* srsran_dci_format_nr_string(srsran_dci_format_nr_t format);
/**
* @brief Calculates the bandwidth of a given CORESET in physical resource blocks (PRB) . This function uses the
* frequency domain resources bit-map for counting the number of PRB.
*
* @attention Prior to this function call, the frequency domain resources bit-map shall be zeroed beyond the
* carrier.nof_prb / 6 index, otherwise the CORESET bandwidth might be greater than the carrier.
*
* @param coreset provides the given CORESET configuration
* @return The number of PRB that the CORESET takes in frequency domain
*/
SRSRAN_API uint32_t srsran_coreset_get_bw(const srsran_coreset_t* coreset);
/**
* @brief Calculates the number of Physical Resource Elements (time and frequency domain) that a given CORESET uses.
* This function uses the frequency domain resources bit-map and duration to compute the number of symbols.
*
* @attention Prior to this function call, the frequency domain resources bit-map shall be zeroed beyond the
* carrier.nof_prb / 6 index, otherwise the CORESET bandwidth might be greater than the carrier.
*
* @param coreset provides the given CORESET configuration
* @return The number of resource elements that compose the coreset
*/
SRSRAN_API uint32_t srsran_coreset_get_sz(const srsran_coreset_t* coreset);
/**
* @brief Get the NR PDSCH mapping type in string
* @param mapping_type Mapping type
* @return Constant string with PDSCH mapping type
*/
SRSRAN_API const char* srsran_sch_mapping_type_to_str(srsran_sch_mapping_type_t mapping_type);
/**
* @brief Get the MCS table string
* @param mcs_table MCS table value
* @return Constant string with the MCS table name
*/
SRSRAN_API const char* srsran_mcs_table_to_str(srsran_mcs_table_t mcs_table);
/**
* @brief Get the MCS table value from a string
* @param str Points to a given string
* @return The MCS table value
*/
SRSRAN_API srsran_mcs_table_t srsran_mcs_table_from_str(const char* str);
/**
* @brief Computes the minimum valid symbol size for a given amount of PRB
* @attention The valid FFT sizes are radix 2 and radix 3 between 128 to 4096 points.
* @param nof_prb Number of PRB
* @return The minimum valid FFT size if the number of PRB is in range, 0 otherwise
*/
SRSRAN_API uint32_t srsran_min_symbol_sz_rb(uint32_t nof_prb);
/**
* @brief Computes the time in seconds between the beginning of the slot and the given symbol
* @remark All symbol size reference and values are taken from TS 38.211 section 5.3 OFDM baseband signal generation
* @param l Given symbol index
* @param scs Subcarrier spacing
* @return Returns the symbol time offset in seconds
*/
SRSRAN_API float srsran_symbol_offset_s(uint32_t l, srsran_subcarrier_spacing_t scs);
/**
* @brief Computes the time in seconds between two symbols in a slot
* @note l0 is expected to be smaller than l1
* @remark All symbol size reference and values are taken from TS 38.211 section 5.3 OFDM baseband signal generation
* @param l0 First symbol index within the slot
* @param l1 Second symbol index within the slot
* @param scs Subcarrier spacing
* @return Returns the time in seconds between the two symbols if the condition above is satisfied, 0 seconds otherwise
*/
SRSRAN_API float srsran_symbol_distance_s(uint32_t l0, uint32_t l1, srsran_subcarrier_spacing_t scs);
/**
* @brief Decides whether a given slot is configured as Downlink
* @param cfg Provides TDD configuration
* @param numerology Provides BWP numerology
* @param slot_idx Slot index in the frame for the given numerology
* @return true if the provided slot index is configured for Downlink
*/
SRSRAN_API bool srsran_tdd_nr_is_dl(const srsran_tdd_config_nr_t* cfg, uint32_t numerology, uint32_t slot_idx);
/**
* @brief Decides whether a given slot is configured as Uplink
* @param cfg Provides TDD configuration
* @param numerology Provides BWP numerology
* @param slot_idx Slot index in the frame for the given numerology
* @return true if the provided slot index is configured for Uplink
*/
SRSRAN_API bool srsran_tdd_nr_is_ul(const srsran_tdd_config_nr_t* cfg, uint32_t numerology, uint32_t slot_idx);
SRSRAN_API int srsran_carrier_to_cell(const srsran_carrier_nr_t* carrier, srsran_cell_t* cell);
/**
* @brief Writes Channel State Information measurement into a string
* @param meas Provides the measurement
* @param str Provides string
* @param str_len Maximum string length
* @return The number of writen characters
*/
SRSRAN_API uint32_t srsran_csi_meas_info(const srsran_csi_trs_measurements_t* meas, char* str, uint32_t str_len);
#ifdef __cplusplus
}
#endif
#endif // SRSRAN_PHY_COMMON_NR_H