Rapid.Space is manufacturing an open source small cell hardware (2x 1W, 2T2R) called the "Open Radio Station". See:
Rapid.Space is now looking for a partner to design or co-design a new radio system plat that can be produced in China and also abroad (Europe, Thailand, USA, etc.). The code name for this new product is "PRS" for "Power Radio Station".
Target specs are the following:
PRS (short term) | PRS (mid term) | ORS (for reference) | |
---|---|---|---|
Type | 2T2R 4T4R | 2T2R 4T4R 2T2R + 2T2R (two-band) 2T2R + 4T4R (two-band) 2T2R + 4T4R + 4T4R (three-band) | 2T2R 4T4R 2T2R + 2T2R (two-band) |
Output Power | 40W to 80W per channel | 40W to 80W per channel | 1W per channel 10W per channel |
Fronthaul interface | CPRI (preferred) or eCPRI (subset) or RDMA (preferred) or PCIe | RDMA or PCIe | PCIe |
Fronthaul interface speed | 10 Gbps or less (CPRI) or 25 Gbps or less (Ethernet) | 25 Gbps (preferred) 100 Gbps PCIe v4 up to 4 lanes | PCIe v3 with 1 lane |
Split | Split 8 | Split 8 | Split 8 |
Compression | Optional (provided by us) | Yes (provided by us) | Optional (provided by us) |
m-plane | O-RAN yang models (preferred) or Anything else | O-RAN yang models (preferred) or Anything else | Register access over PCIe |
Embedded OS | Linux (with root access) or nothing | Linux (with root access) | nothing |
FPGA development environment | any | LiteX | LiteX |
FPGA SDK license | any | open source if possible | proprietary (vivado) |
FPGA origin | any | China if possible | USA |
Transceiver origin | any | China if possible | USA or China |
Synchronisation | GPS (option) | GPS PTP PTM (option) | GPS PPS PTM (PTP over PCIe) |
Ability to include x86 or ARM SBC inside casing | if possible | Yes | Yes |
Technical support | Documentation and human | Documentation and human (optional) | Documentation and human (optional) |
We need complete test coverage.
PRS (short term) | PRS (mid term) | ORS (for reference) | |
---|---|---|---|
Signal quality test report (3GPP or other) | Yes | Yes | Yes |
M-plane unit test | Yes | Yes | Yes |
End-to-end test | optional | optional | Yes |
We need to be able to manufacture the hardware anywhere and to modify the source code by ourselves in front of our customers, including in front of local governments. In order to achieve that, some form technology licensing is required, either directly with Rapid.Space or by setting independent companies jointly in various countries (ex. EU).
We prefer open source licensing but this is not required. We are OK for pay for software license either per unit, flat fee or a combination.
PRS (short term) | PRS (mid term) | ORS (for reference) | |
---|---|---|---|
Access to BOM and CAD files | if possible | Yes | Yes |
Hardware license | any | any | open source |
Access for firmware OS source code | Yes | Yes | Yes |
firmware OS license | open source if possible | open source | N/A |
Access for FPGA bitstream source code | if possible | Yes | Yes |
FPGA bitstream license | any | open source | not open source |
Rapid.Space can provide onsite integration test.
Connect SPF/fiber cable (SPF/fiber module) on 2 SPF ports of CPRI card in Rapid.Space BBU. Launch LTEENB with cpri config to confirm HW&SW lock, making sure BBU, CPRI, SFP module and cables work.
Configure frequency (dl_earfcn
), bandwidth (N_RB_DL
), antennas(N_ANTENNA_DL, N_ANTENNA_UL
), CPRI line rate (cpri_mult
) and launch it to confirm HW and SW lock
Goal: UE attached
Configure delay parameter (cpri_rx_delay,cpri_tx_delay
)
Here is an example from Lopcomm's RU: https://handbook.rapid.space/user/rapidspace-Lopcomm.RRH.Delay.Management.CPRI.Delay
Try to attach UE.
1. make sure BBU has internet access, so that Amarisoft license can be valid
2. Amarisoft is in /home/sdr/sdr/2024-06-18/
3. init trx_sdr kernel. and verify it with .sdr_util version
4. if there's no Xilinx in lspci, open the case of BBU and press the PCI interface
5. enb.cfg in using is /home/sdr/sdr/2024-06-18/enb/config/enb-cpri.cfg
6. Modify cpri_option (or cpri_multi) to match the line rate of RU
7. Modify bandwidth, frequency... (maybe cpri_mapping)
8. root@sdr:/home/sdr/sdr/2024-06-18/enb# ./lteenb config/enb-cpri.cfg
Adjust until you get sync=HW+SW (using rf_info to see the output)
9. Once you have HW+SW synced, meanning S-plane completed. You can try to connect UE
10. root@sdr:/home/sdr/sdr/2024-06-18/mme# ./ltemme config/mme.cfg
You need a very good UE to be attached regardless the unsetting delay management
Try to modify the delay parameter to meet ta=2 in PRACH
PRACH: cell=00 seq=19 ta=70 snr=28.5 dB
11. Good luck
4TR-20MHz-B7 enb.cfg reference:
#define TDD 0#define N_RB_DL 100#define N_ANTENNA_DL 4#define N_ANTENNA_UL 4{ //log_options: "all.level=error,all.max_size=0,nas.level=debug,nas.max_size=1,s1ap.level=debug,s1ap.max_size=1,x2ap.level=debug,x2ap.max_size=1,rrc.level=debug,rrc.max_size=1,phy.level=info,file.rotate=1G,file.path=/dev/null",// log_options: "all.level=warn,phy.level=debug,phy.max_size=1,rrc.level=debug,rrc.max_size=1", log_options: "all.level=error,rrc.max_size=1", log_filename: "/tmp/enb0.log", rf_driver: { name: "sdr", args: "dev0=/dev/sdr0@0", cpri_mapping: "hw", cpri_mult: "16", cpri_rx_delay: "25.47", cpri_tx_delay: "14.71", cpri_tx_dbm: "54", cpri_debug: 2, ifname: "cpri0", }, tx_gain: 0, rx_gain: 0, com_addr: "127.0.1.2:9001", mme_list: [ { mme_addr: "192.168.9.100", }, ], gtp_addr: "192.168.9.7", enb_id: 0x1A2D0, cell_list: [{ rf_port: 0, cell_id: 0x00, tac: 0x0001, n_id_cell: 0, root_sequence_index: 204, dl_earfcn: 3100, scell_list: [ ], } ], cell_default: { plmn_list: [{ plmn: "00101", reserved: false, attach_without_pdn: false, } ], n_antenna_dl: N_ANTENNA_DL, n_antenna_ul: N_ANTENNA_UL,#if TDD == 1 uldl_config: 2, sp_config: 7,#endif n_rb_dl: N_RB_DL, cyclic_prefix: "normal", phich_duration: "normal", phich_resource: "1", si_value_tag: 0, cell_barred: false, intra_freq_reselection: true, q_rx_lev_min: -70, p_max: 17, si_window_length: 40, sib_sched_list: [ { filename: "sib2_3.asn", si_periodicity: 16, }, ],#if N_RB_DL == 6 si_coderate: 0.30,#else si_coderate: 0.20,#endif si_pdcch_format: 2, n_symb_cch: 0, pdsch_dedicated: {#if N_ANTENNA_DL == 4 p_a: -6,#elif N_ANTENNA_DL == 2 p_a: -3,#else p_a: 0,#endif p_b: -1, },#if N_RB_DL == 6 pdcch_format: 1,#else pdcch_format: 2,#endif#if N_RB_DL == 6 prach_config_index: 15,#else prach_config_index: 4,#endif prach_freq_offset: -1, pucch_dedicated: { n1_pucch_sr_count: 11, cqi_pucch_n_rb: 1,#if TDD == 1 tdd_ack_nack_feedback_mode: "multiplexing", /* TDD only */#endif }, pusch_dedicated: { beta_offset_ack_index: 9, beta_offset_ri_index: 6, beta_offset_cqi_index: 6, }, pusch_hopping_offset: -1, pusch_msg3_mcs: 0,#if N_RB_DL == 6 initial_cqi: 5,#else initial_cqi: 3,#endif dl_256qam: true, ul_64qam: true, sr_period: 20, cqi_period: 40,#if N_ANTENNA_DL >= 2 m_ri: 8, transmission_mode: 3,#endif srs_dedicated: {#if N_RB_DL == 6 srs_bandwidth_config: 7, srs_bandwidth: 1,#elif N_RB_DL == 15 srs_bandwidth_config: 6, srs_bandwidth: 1,#elif N_RB_DL == 25 srs_bandwidth_config: 3, srs_bandwidth: 1,#elif N_RB_DL == 50 srs_bandwidth_config: 2, srs_bandwidth: 2,#elif N_RB_DL == 75 srs_bandwidth_config: 2, srs_bandwidth: 2,#else srs_bandwidth_config: 2, srs_bandwidth: 3,#endif srs_subframe_config: 3, srs_period: 40, srs_hopping_bandwidth: 0, }, mac_config: { ul_max_harq_tx: 28, dl_max_harq_tx: 28, }, pusch_max_its: 6, dpc: false, dpc_pusch_snr_target: 25, dpc_pucch_snr_target: 20, cipher_algo_pref: [], integ_algo_pref: [2, 1], inactivity_timer: 10000, srb_config: [ { id: 1, maxRetxThreshold: 32, t_Reordering: 45, t_PollRetransmit: 60, }, { id: 2 , maxRetxThreshold: 32, t_Reordering: 45, t_PollRetransmit: 60, } ], drb_config: "drb.cfg", meas_config_desc: { a1_report_type: "rsrp", a1_rsrp: -70, a1_hysteresis: 0, a1_time_to_trigger: 640, a2_report_type: "rsrp", a2_rsrp: -80, a2_hysteresis: 0, a2_time_to_trigger: 640, a3_report_type: "rsrp", a3_offset: 6, a3_hysteresis: 0, a3_time_to_trigger: 480, }, meas_gap_config: "gp0", ho_from_meas: true, },}
For more information, please contact Jean-Paul, CEO of Nexedi (+33 629 02 44 25).