rewrite HMC7043 init code without using ADI GUI outputs, working analog/digital delay

2018-02-17 04:07:11 +00:00 · 2018-02-17 04:07:11 +00:00 · ccc279b8da
parent e41f49cc75
commit ccc279b8da
3 changed files with 64 additions and 746 deletions
--- a/artiq/firmware/libboard_artiq/hmc7043_gen_writes.py
+++ b/artiq/firmware/libboard_artiq/hmc7043_gen_writes.py
@ -1,30 +0,0 @@
 #!/usr/bin/env python3
 # The HMC7043 GUI exports register write lists into Python files.
 # This script converts them into Rust arrays.
 import sys
 import runpy
 class DUT:
    def __init__(self):
        self.writes = []
    def write(self, address, value):
        self.writes.append((address, value))
 def main():
    dut = DUT()
    runpy.run_path(sys.argv[1], {"dut": dut})
    print("// This file was autogenerated by hmc7043_gen_writes.py")
    print("const HMC7043_WRITES: [(u16, u8); {}] = [".format(len(dut.writes)))
    for address, value in dut.writes:
        print("    (0x{:04x}, 0x{:02x}),".format(address, value))
    print("];")
 if __name__ == "__main__":
    main()
--- a/artiq/firmware/libboard_artiq/hmc7043_guiexport_6gbps.py
+++ b/artiq/firmware/libboard_artiq/hmc7043_guiexport_6gbps.py
@ -1,696 +0,0 @@
 # glbl_cfg1_swrst[0:0] = 0x0
 dut.write(0x0, 0x0)
 # glbl_cfg1_sleep[0:0] = 0x0
 # glbl_cfg1_restart[1:1] = 0x0
 # sysr_cfg1_pulsor_req[2:2] = 0x0
 # grpx_cfg1_mute[3:3] = 0x0
 # dist_cfg1_perf_floor[6:6] = 0x0
 # sysr_cfg1_reseed_req[7:7] = 0x0
 dut.write(0x1, 0x0)
 # sysr_cfg1_rev[0:0] = 0x0
 # sysr_cfg1_slipN_req[1:1] = 0x0
 dut.write(0x2, 0x0)
 # glbl_cfg1_ena_sysr[2:2] = 0x1
 # glbl_cfg2_ena_vcos[4:3] = 0x0
 # glbl_cfg1_ena_sysri[5:5] = 0x1
 dut.write(0x3, 0x24)
 # glbl_cfg7_ena_clkgr[6:0] = 0x3B
 dut.write(0x4, 0x3B)
 # glbl_cfg1_clear_alarms[0:0] = 0x0
 dut.write(0x6, 0x0)
 # glbl_reserved[0:0] = 0x0
 dut.write(0x7, 0x0)
 # glbl_cfg5_ibuf0_en[0:0] = 0x0
 # glbl_cfg5_ibuf0_mode[4:1] = 0x7
 dut.write(0xA, 0xE)
 # glbl_cfg5_ibuf1_en[0:0] = 0x1
 # glbl_cfg5_ibuf1_mode[4:1] = 0x7
 dut.write(0xB, 0xF)
 # glbl_cfg5_gpi1_en[0:0] = 0x0
 # glbl_cfg5_gpi1_sel[4:1] = 0x0
 dut.write(0x46, 0x0)
 # glbl_cfg8_gpo1_en[0:0] = 0x1
 # glbl_cfg8_gpo1_mode[1:1] = 0x1
 # glbl_cfg8_gpo1_sel[7:2] = 0x7
 dut.write(0x50, 0x1F)
 # glbl_cfg2_sdio_en[0:0] = 0x1
 # glbl_cfg2_sdio_mode[1:1] = 0x1
 dut.write(0x54, 0x3)
 # sysr_cfg3_pulsor_mode[2:0] = 0x1
 dut.write(0x5A, 0x1)
 # sysr_cfg1_synci_invpol[0:0] = 0x0
 # sysr_cfg1_ext_sync_retimemode[2:2] = 0x1
 dut.write(0x5B, 0x4)
 # sysr_cfg16_divrat_lsb[7:0] = 0x0
 dut.write(0x5C, 0x0)
 # sysr_cfg16_divrat_msb[3:0] = 0x6
 dut.write(0x5D, 0x6)
 # dist_cfg1_extvco_islowfreq_sel[0:0] = 0x0
 # dist_cfg1_extvco_div2_sel[1:1] = 0x1
 dut.write(0x64, 0x2)
 # clkgrpx_cfg1_alg_dly_lowpwr_sel[0:0] = 0x0
 dut.write(0x65, 0x0)
 # alrm_cfg1_sysr_unsyncd_allow[1:1] = 0x0
 # alrm_cfg1_clkgrpx_validph_allow[2:2] = 0x0
 # alrm_cfg1_sync_req_allow[4:4] = 0x1
 dut.write(0x71, 0x10)
 # glbl_ro8_chipid_lob[7:0] = 0x1
 dut.write(0x78, 0x1)
 # glbl_ro8_chipid_mid[7:0] = 0x52
 dut.write(0x79, 0x52)
 # glbl_ro8_chipid_hib[7:0] = 0x4
 dut.write(0x7A, 0x4)
 # alrm_ro1_sysr_unsyncd_now[1:1] = 0x1
 # alrm_ro1_clkgrpx_validph_now[2:2] = 0x0
 # alrm_ro1_sync_req_now[4:4] = 0x1
 dut.write(0x7D, 0x12)
 # sysr_ro4_fsmstate[3:0] = 0x2
 # grpx_ro1_outdivfsm_busy[4:4] = 0x0
 dut.write(0x91, 0x2)
 # reg_98[7:0] = 0x0
 dut.write(0x98, 0x0)
 # reg_99[7:0] = 0x0
 dut.write(0x99, 0x0)
 # reg_9A[7:0] = 0x0
 dut.write(0x9A, 0x0)
 # reg_9B[7:0] = 0xAA
 dut.write(0x9B, 0xAA)
 # reg_9C[7:0] = 0xAA
 dut.write(0x9C, 0xAA)
 # reg_9D[7:0] = 0xAA
 dut.write(0x9D, 0xAA)
 # reg_9E[7:0] = 0xAA
 dut.write(0x9E, 0xAA)
 # reg_9F[7:0] = 0x4D
 dut.write(0x9F, 0x4D)
 # reg_A0[7:0] = 0xDF
 dut.write(0xA0, 0xDF)
 # reg_A1[7:0] = 0x97
 dut.write(0xA1, 0x97)
 # reg_A2[7:0] = 0x3
 dut.write(0xA2, 0x3)
 # reg_A3[7:0] = 0x0
 dut.write(0xA3, 0x0)
 # reg_A4[7:0] = 0x0
 dut.write(0xA4, 0x0)
 # reg_AD[7:0] = 0x0
 dut.write(0xAD, 0x0)
 # reg_AE[7:0] = 0x8
 dut.write(0xAE, 0x8)
 # reg_AF[7:0] = 0x50
 dut.write(0xAF, 0x50)
 # reg_B0[7:0] = 0x4
 dut.write(0xB0, 0x4)
 # reg_B1[7:0] = 0xD
 dut.write(0xB1, 0xD)
 # reg_B2[7:0] = 0x0
 dut.write(0xB2, 0x0)
 # reg_B3[7:0] = 0x0
 dut.write(0xB3, 0x0)
 # reg_B5[7:0] = 0x0
 dut.write(0xB5, 0x0)
 # reg_B6[7:0] = 0x0
 dut.write(0xB6, 0x0)
 # reg_B7[7:0] = 0x0
 dut.write(0xB7, 0x0)
 # reg_B8[7:0] = 0x0
 dut.write(0xB8, 0x0)
 # clkgrp1_div1_cfg1_en[0:0] = 0x1
 # clkgrp1_div1_cfg1_phdelta_mslip[1:1] = 0x1
 # clkgrp1_div1_cfg2_startmode[3:2] = 0x0
 # clkgrp1_div1_cfg1_rev[4:4] = 0x1
 # clkgrp1_div1_cfg1_slipmask[5:5] = 0x1
 # clkgrp1_div1_cfg1_reseedmask[6:6] = 0x1
 # clkgrp1_div1_cfg1_hi_perf[7:7] = 0x0
 dut.write(0xC8, 0x73)
 # clkgrp1_div1_cfg12_divrat_lsb[7:0] = 0x1
 dut.write(0xC9, 0x1)
 # clkgrp1_div1_cfg12_divrat_msb[3:0] = 0x0
 dut.write(0xCA, 0x0)
 # clkgrp1_div1_cfg5_fine_delay[4:0] = 0x0
 dut.write(0xCB, 0x0)
 # clkgrp1_div1_cfg5_sel_coarse_delay[4:0] = 0x0
 dut.write(0xCC, 0x0)
 # clkgrp1_div1_cfg12_mslip_lsb[7:0] = 0x0
 dut.write(0xCD, 0x0)
 # clkgrp1_div1_cfg12_mslip_msb[3:0] = 0x0
 dut.write(0xCE, 0x0)
 # clkgrp1_div1_cfg2_sel_outmux[1:0] = 0x3
 # clkgrp1_div1_cfg1_drvr_sel_testclk[2:2] = 0x0
 dut.write(0xCF, 0x3)
 # clkgrp1_div1_cfg5_drvr_res[1:0] = 0x0
 # clkgrp1_div1_cfg5_drvr_spare[2:2] = 0x0
 # clkgrp1_div1_cfg5_drvr_mode[4:3] = 0x1
 # clkgrp1_div1_cfg_outbuf_dyn[5:5] = 0x0
 # clkgrp1_div1_cfg2_mutesel[7:6] = 0x0
 dut.write(0xD0, 0x8)
 # clkgrp1_div2_cfg1_en[0:0] = 0x1
 # clkgrp1_div2_cfg1_phdelta_mslip[1:1] = 0x0
 # clkgrp1_div2_cfg2_startmode[3:2] = 0x0
 # clkgrp1_div2_cfg1_rev[4:4] = 0x1
 # clkgrp1_div2_cfg1_slipmask[5:5] = 0x1
 # clkgrp1_div2_cfg1_reseedmask[6:6] = 0x1
 # clkgrp1_div2_cfg1_hi_perf[7:7] = 0x0
 dut.write(0xD2, 0x71)
 # clkgrp1_div2_cfg12_divrat_lsb[7:0] = 0x40
 dut.write(0xD3, 0x40)
 # clkgrp1_div2_cfg12_divrat_msb[3:0] = 0x0
 dut.write(0xD4, 0x0)
 # clkgrp1_div2_cfg5_fine_delay[4:0] = 0x0
 dut.write(0xD5, 0x0)
 # clkgrp1_div2_cfg5_sel_coarse_delay[4:0] = 0x0
 dut.write(0xD6, 0x0)
 # clkgrp1_div2_cfg12_mslip_lsb[7:0] = 0x0
 dut.write(0xD7, 0x0)
 # clkgrp1_div2_cfg12_mslip_msb[3:0] = 0x0
 dut.write(0xD8, 0x0)
 # clkgrp1_div2_cfg2_sel_outmux[1:0] = 0x0
 # clkgrp1_div2_cfg1_drvr_sel_testclk[2:2] = 0x0
 dut.write(0xD9, 0x0)
 # clkgrp1_div2_cfg5_drvr_res[1:0] = 0x1
 # clkgrp1_div2_cfg5_drvr_spare[2:2] = 0x0
 # clkgrp1_div2_cfg5_drvr_mode[4:3] = 0x1
 # clkgrp1_div2_cfg_outbuf_dyn[5:5] = 0x0
 # clkgrp1_div2_cfg2_mutesel[7:6] = 0x0
 dut.write(0xDA, 0x9)
 # clkgrp2_div1_cfg1_en[0:0] = 0x1
 # clkgrp2_div1_cfg1_phdelta_mslip[1:1] = 0x1
 # clkgrp2_div1_cfg2_startmode[3:2] = 0x0
 # clkgrp2_div1_cfg1_rev[4:4] = 0x1
 # clkgrp2_div1_cfg1_slipmask[5:5] = 0x1
 # clkgrp2_div1_cfg1_reseedmask[6:6] = 0x1
 # clkgrp2_div1_cfg1_hi_perf[7:7] = 0x0
 dut.write(0xDC, 0x73)
 # clkgrp2_div1_cfg12_divrat_lsb[7:0] = 0x1
 dut.write(0xDD, 0x1)
 # clkgrp2_div1_cfg12_divrat_msb[3:0] = 0x0
 dut.write(0xDE, 0x0)
 # clkgrp2_div1_cfg5_fine_delay[4:0] = 0x0
 dut.write(0xDF, 0x0)
 # clkgrp2_div1_cfg5_sel_coarse_delay[4:0] = 0x0
 dut.write(0xE0, 0x0)
 # clkgrp2_div1_cfg12_mslip_lsb[7:0] = 0x0
 dut.write(0xE1, 0x0)
 # clkgrp2_div1_cfg12_mslip_msb[3:0] = 0x0
 dut.write(0xE2, 0x0)
 # clkgrp2_div1_cfg2_sel_outmux[1:0] = 0x0
 # clkgrp2_div1_cfg1_drvr_sel_testclk[2:2] = 0x0
 dut.write(0xE3, 0x0)
 # clkgrp2_div1_cfg5_drvr_res[1:0] = 0x0
 # clkgrp2_div1_cfg5_drvr_spare[2:2] = 0x0
 # clkgrp2_div1_cfg5_drvr_mode[4:3] = 0x1
 # clkgrp2_div1_cfg_outbuf_dyn[5:5] = 0x0
 # clkgrp2_div1_cfg2_mutesel[7:6] = 0x0
 dut.write(0xE4, 0x8)
 # clkgrp2_div2_cfg1_en[0:0] = 0x1
 # clkgrp2_div2_cfg1_phdelta_mslip[1:1] = 0x0
 # clkgrp2_div2_cfg2_startmode[3:2] = 0x0
 # clkgrp2_div2_cfg1_rev[4:4] = 0x1
 # clkgrp2_div2_cfg1_slipmask[5:5] = 0x1
 # clkgrp2_div2_cfg1_reseedmask[6:6] = 0x1
 # clkgrp2_div2_cfg1_hi_perf[7:7] = 0x0
 dut.write(0xE6, 0x71)
 # clkgrp2_div2_cfg12_divrat_lsb[7:0] = 0x40
 dut.write(0xE7, 0x40)
 # clkgrp2_div2_cfg12_divrat_msb[3:0] = 0x0
 dut.write(0xE8, 0x0)
 # clkgrp2_div2_cfg5_fine_delay[4:0] = 0x0
 dut.write(0xE9, 0x0)
 # clkgrp2_div2_cfg5_sel_coarse_delay[4:0] = 0x0
 dut.write(0xEA, 0x0)
 # clkgrp2_div2_cfg12_mslip_lsb[7:0] = 0x0
 dut.write(0xEB, 0x0)
 # clkgrp2_div2_cfg12_mslip_msb[3:0] = 0x0
 dut.write(0xEC, 0x0)
 # clkgrp2_div2_cfg2_sel_outmux[1:0] = 0x0
 # clkgrp2_div2_cfg1_drvr_sel_testclk[2:2] = 0x0
 dut.write(0xED, 0x0)
 # clkgrp2_div2_cfg5_drvr_res[1:0] = 0x1
 # clkgrp2_div2_cfg5_drvr_spare[2:2] = 0x0
 # clkgrp2_div2_cfg5_drvr_mode[4:3] = 0x1
 # clkgrp2_div2_cfg_outbuf_dyn[5:5] = 0x0
 # clkgrp2_div2_cfg2_mutesel[7:6] = 0x0
 dut.write(0xEE, 0x9)
 # clkgrp3_div1_cfg1_en[0:0] = 0x1
 # clkgrp3_div1_cfg1_phdelta_mslip[1:1] = 0x1
 # clkgrp3_div1_cfg2_startmode[3:2] = 0x0
 # clkgrp3_div1_cfg1_rev[4:4] = 0x1
 # clkgrp3_div1_cfg1_slipmask[5:5] = 0x1
 # clkgrp3_div1_cfg1_reseedmask[6:6] = 0x1
 # clkgrp3_div1_cfg1_hi_perf[7:7] = 0x0
 dut.write(0xF0, 0x73)
 # clkgrp3_div1_cfg12_divrat_lsb[7:0] = 0x2
 dut.write(0xF1, 0x2)
 # clkgrp3_div1_cfg12_divrat_msb[3:0] = 0x0
 dut.write(0xF2, 0x0)
 # clkgrp3_div1_cfg5_fine_delay[4:0] = 0x0
 dut.write(0xF3, 0x0)
 # clkgrp3_div1_cfg5_sel_coarse_delay[4:0] = 0x0
 dut.write(0xF4, 0x0)
 # clkgrp3_div1_cfg12_mslip_lsb[7:0] = 0x0
 dut.write(0xF5, 0x0)
 # clkgrp3_div1_cfg12_mslip_msb[3:0] = 0x0
 dut.write(0xF6, 0x0)
 # clkgrp3_div1_cfg2_sel_outmux[1:0] = 0x0
 # clkgrp3_div1_cfg1_drvr_sel_testclk[2:2] = 0x0
 dut.write(0xF7, 0x0)
 # clkgrp3_div1_cfg5_drvr_res[1:0] = 0x0
 # clkgrp3_div1_cfg5_drvr_spare[2:2] = 0x0
 # clkgrp3_div1_cfg5_drvr_mode[4:3] = 0x1
 # clkgrp3_div1_cfg_outbuf_dyn[5:5] = 0x0
 # clkgrp3_div1_cfg2_mutesel[7:6] = 0x0
 dut.write(0xF8, 0x8)
 # clkgrp3_div2_cfg1_en[0:0] = 0x0
 # clkgrp3_div2_cfg1_phdelta_mslip[1:1] = 0x0
 # clkgrp3_div2_cfg2_startmode[3:2] = 0x0
 # clkgrp3_div2_cfg1_rev[4:4] = 0x1
 # clkgrp3_div2_cfg1_slipmask[5:5] = 0x1
 # clkgrp3_div2_cfg1_reseedmask[6:6] = 0x1
 # clkgrp3_div2_cfg1_hi_perf[7:7] = 0x0
 dut.write(0xFA, 0x70)
 # clkgrp3_div2_cfg12_divrat_lsb[7:0] = 0x80
 dut.write(0xFB, 0x80)
 # clkgrp3_div2_cfg12_divrat_msb[3:0] = 0x0
 dut.write(0xFC, 0x0)
 # clkgrp3_div2_cfg5_fine_delay[4:0] = 0x0
 dut.write(0xFD, 0x0)
 # clkgrp3_div2_cfg5_sel_coarse_delay[4:0] = 0x0
 dut.write(0xFE, 0x0)
 # clkgrp3_div2_cfg12_mslip_lsb[7:0] = 0x0
 dut.write(0xFF, 0x0)
 # clkgrp3_div2_cfg12_mslip_msb[3:0] = 0x0
 dut.write(0x100, 0x0)
 # clkgrp3_div2_cfg2_sel_outmux[1:0] = 0x0
 # clkgrp3_div2_cfg1_drvr_sel_testclk[2:2] = 0x0
 dut.write(0x101, 0x0)
 # clkgrp3_div2_cfg5_drvr_res[1:0] = 0x3
 # clkgrp3_div2_cfg5_drvr_spare[2:2] = 0x0
 # clkgrp3_div2_cfg5_drvr_mode[4:3] = 0x1
 # clkgrp3_div2_cfg_outbuf_dyn[5:5] = 0x0
 # clkgrp3_div2_cfg2_mutesel[7:6] = 0x0
 dut.write(0x102, 0xB)
 # clkgrp4_div1_cfg1_en[0:0] = 0x1
 # clkgrp4_div1_cfg1_phdelta_mslip[1:1] = 0x1
 # clkgrp4_div1_cfg2_startmode[3:2] = 0x0
 # clkgrp4_div1_cfg1_rev[4:4] = 0x1
 # clkgrp4_div1_cfg1_slipmask[5:5] = 0x1
 # clkgrp4_div1_cfg1_reseedmask[6:6] = 0x1
 # clkgrp4_div1_cfg1_hi_perf[7:7] = 0x0
 dut.write(0x104, 0x73)
 # clkgrp4_div1_cfg12_divrat_lsb[7:0] = 0x4
 dut.write(0x105, 0x4)
 # clkgrp4_div1_cfg12_divrat_msb[3:0] = 0x0
 dut.write(0x106, 0x0)
 # clkgrp4_div1_cfg5_fine_delay[4:0] = 0x0
 dut.write(0x107, 0x0)
 # clkgrp4_div1_cfg5_sel_coarse_delay[4:0] = 0x0
 dut.write(0x108, 0x0)
 # clkgrp4_div1_cfg12_mslip_lsb[7:0] = 0x0
 dut.write(0x109, 0x0)
 # clkgrp4_div1_cfg12_mslip_msb[3:0] = 0x0
 dut.write(0x10A, 0x0)
 # clkgrp4_div1_cfg2_sel_outmux[1:0] = 0x0
 # clkgrp4_div1_cfg1_drvr_sel_testclk[2:2] = 0x0
 dut.write(0x10B, 0x0)
 # clkgrp4_div1_cfg5_drvr_res[1:0] = 0x0
 # clkgrp4_div1_cfg5_drvr_spare[2:2] = 0x0
 # clkgrp4_div1_cfg5_drvr_mode[4:3] = 0x1
 # clkgrp4_div1_cfg_outbuf_dyn[5:5] = 0x0
 # clkgrp4_div1_cfg2_mutesel[7:6] = 0x0
 dut.write(0x10C, 0x8)
 # clkgrp4_div2_cfg1_en[0:0] = 0x1
 # clkgrp4_div2_cfg1_phdelta_mslip[1:1] = 0x0
 # clkgrp4_div2_cfg2_startmode[3:2] = 0x0
 # clkgrp4_div2_cfg1_rev[4:4] = 0x1
 # clkgrp4_div2_cfg1_slipmask[5:5] = 0x1
 # clkgrp4_div2_cfg1_reseedmask[6:6] = 0x1
 # clkgrp4_div2_cfg1_hi_perf[7:7] = 0x0
 dut.write(0x10E, 0x71)
 # clkgrp4_div2_cfg12_divrat_lsb[7:0] = 0x40
 dut.write(0x10F, 0x40)
 # clkgrp4_div2_cfg12_divrat_msb[3:0] = 0x0
 dut.write(0x110, 0x0)
 # clkgrp4_div2_cfg5_fine_delay[4:0] = 0x0
 dut.write(0x111, 0x0)
 # clkgrp4_div2_cfg5_sel_coarse_delay[4:0] = 0x0
 dut.write(0x112, 0x0)
 # clkgrp4_div2_cfg12_mslip_lsb[7:0] = 0x0
 dut.write(0x113, 0x0)
 # clkgrp4_div2_cfg12_mslip_msb[3:0] = 0x0
 dut.write(0x114, 0x0)
 # clkgrp4_div2_cfg2_sel_outmux[1:0] = 0x0
 # clkgrp4_div2_cfg1_drvr_sel_testclk[2:2] = 0x0
 dut.write(0x115, 0x0)
 # clkgrp4_div2_cfg5_drvr_res[1:0] = 0x3
 # clkgrp4_div2_cfg5_drvr_spare[2:2] = 0x0
 # clkgrp4_div2_cfg5_drvr_mode[4:3] = 0x2
 # clkgrp4_div2_cfg_outbuf_dyn[5:5] = 0x0
 # clkgrp4_div2_cfg2_mutesel[7:6] = 0x0
 dut.write(0x116, 0x13)
 # clkgrp5_div1_cfg1_en[0:0] = 0x1
 # clkgrp5_div1_cfg1_phdelta_mslip[1:1] = 0x1
 # clkgrp5_div1_cfg2_startmode[3:2] = 0x0
 # clkgrp5_div1_cfg1_rev[4:4] = 0x1
 # clkgrp5_div1_cfg1_slipmask[5:5] = 0x1
 # clkgrp5_div1_cfg1_reseedmask[6:6] = 0x1
 # clkgrp5_div1_cfg1_hi_perf[7:7] = 0x0
 dut.write(0x118, 0x73)
 # clkgrp5_div1_cfg12_divrat_lsb[7:0] = 0x4
 dut.write(0x119, 0x4)
 # clkgrp5_div1_cfg12_divrat_msb[3:0] = 0x0
 dut.write(0x11A, 0x0)
 # clkgrp5_div1_cfg5_fine_delay[4:0] = 0x0
 dut.write(0x11B, 0x0)
 # clkgrp5_div1_cfg5_sel_coarse_delay[4:0] = 0x0
 dut.write(0x11C, 0x0)
 # clkgrp5_div1_cfg12_mslip_lsb[7:0] = 0x0
 dut.write(0x11D, 0x0)
 # clkgrp5_div1_cfg12_mslip_msb[3:0] = 0x0
 dut.write(0x11E, 0x0)
 # clkgrp5_div1_cfg2_sel_outmux[1:0] = 0x0
 # clkgrp5_div1_cfg1_drvr_sel_testclk[2:2] = 0x0
 dut.write(0x11F, 0x0)
 # clkgrp5_div1_cfg5_drvr_res[1:0] = 0x0
 # clkgrp5_div1_cfg5_drvr_spare[2:2] = 0x0
 # clkgrp5_div1_cfg5_drvr_mode[4:3] = 0x1
 # clkgrp5_div1_cfg_outbuf_dyn[5:5] = 0x0
 # clkgrp5_div1_cfg2_mutesel[7:6] = 0x0
 dut.write(0x120, 0x8)
 # clkgrp5_div2_cfg1_en[0:0] = 0x1
 # clkgrp5_div2_cfg1_phdelta_mslip[1:1] = 0x1
 # clkgrp5_div2_cfg2_startmode[3:2] = 0x0
 # clkgrp5_div2_cfg1_rev[4:4] = 0x1
 # clkgrp5_div2_cfg1_slipmask[5:5] = 0x1
 # clkgrp5_div2_cfg1_reseedmask[6:6] = 0x1
 # clkgrp5_div2_cfg1_hi_perf[7:7] = 0x0
 dut.write(0x122, 0x73)
 # clkgrp5_div2_cfg12_divrat_lsb[7:0] = 0x4
 dut.write(0x123, 0x4)
 # clkgrp5_div2_cfg12_divrat_msb[3:0] = 0x0
 dut.write(0x124, 0x0)
 # clkgrp5_div2_cfg5_fine_delay[4:0] = 0x0
 dut.write(0x125, 0x0)
 # clkgrp5_div2_cfg5_sel_coarse_delay[4:0] = 0x0
 dut.write(0x126, 0x0)
 # clkgrp5_div2_cfg12_mslip_lsb[7:0] = 0x0
 dut.write(0x127, 0x0)
 # clkgrp5_div2_cfg12_mslip_msb[3:0] = 0x0
 dut.write(0x128, 0x0)
 # clkgrp5_div2_cfg2_sel_outmux[1:0] = 0x0
 # clkgrp5_div2_cfg1_drvr_sel_testclk[2:2] = 0x0
 dut.write(0x129, 0x0)
 # clkgrp5_div2_cfg5_drvr_res[1:0] = 0x3
 # clkgrp5_div2_cfg5_drvr_spare[2:2] = 0x0
 # clkgrp5_div2_cfg5_drvr_mode[4:3] = 0x1
 # clkgrp5_div2_cfg_outbuf_dyn[5:5] = 0x0
 # clkgrp5_div2_cfg2_mutesel[7:6] = 0x0
 dut.write(0x12A, 0xB)
 # clkgrp6_div1_cfg1_en[0:0] = 0x1
 # clkgrp6_div1_cfg1_phdelta_mslip[1:1] = 0x1
 # clkgrp6_div1_cfg2_startmode[3:2] = 0x0
 # clkgrp6_div1_cfg1_rev[4:4] = 0x1
 # clkgrp6_div1_cfg1_slipmask[5:5] = 0x1
 # clkgrp6_div1_cfg1_reseedmask[6:6] = 0x1
 # clkgrp6_div1_cfg1_hi_perf[7:7] = 0x0
 dut.write(0x12C, 0x73)
 # clkgrp6_div1_cfg12_divrat_lsb[7:0] = 0x4
 dut.write(0x12D, 0x4)
 # clkgrp6_div1_cfg12_divrat_msb[3:0] = 0x0
 dut.write(0x12E, 0x0)
 # clkgrp6_div1_cfg5_fine_delay[4:0] = 0x0
 dut.write(0x12F, 0x0)
 # clkgrp6_div1_cfg5_sel_coarse_delay[4:0] = 0x0
 dut.write(0x130, 0x0)
 # clkgrp6_div1_cfg12_mslip_lsb[7:0] = 0x0
 dut.write(0x131, 0x0)
 # clkgrp6_div1_cfg12_mslip_msb[3:0] = 0x0
 dut.write(0x132, 0x0)
 # clkgrp6_div1_cfg2_sel_outmux[1:0] = 0x0
 # clkgrp6_div1_cfg1_drvr_sel_testclk[2:2] = 0x0
 dut.write(0x133, 0x0)
 # clkgrp6_div1_cfg5_drvr_res[1:0] = 0x0
 # clkgrp6_div1_cfg5_drvr_spare[2:2] = 0x0
 # clkgrp6_div1_cfg5_drvr_mode[4:3] = 0x1
 # clkgrp6_div1_cfg_outbuf_dyn[5:5] = 0x0
 # clkgrp6_div1_cfg2_mutesel[7:6] = 0x0
 dut.write(0x134, 0x8)
 # clkgrp6_div2_cfg1_en[0:0] = 0x1
 # clkgrp6_div2_cfg1_phdelta_mslip[1:1] = 0x0
 # clkgrp6_div2_cfg2_startmode[3:2] = 0x0
 # clkgrp6_div2_cfg1_rev[4:4] = 0x1
 # clkgrp6_div2_cfg1_slipmask[5:5] = 0x1
 # clkgrp6_div2_cfg1_reseedmask[6:6] = 0x1
 # clkgrp6_div2_cfg1_hi_perf[7:7] = 0x0
 dut.write(0x136, 0x71)
 # clkgrp6_div2_cfg12_divrat_lsb[7:0] = 0x80
 dut.write(0x137, 0x80)
 # clkgrp6_div2_cfg12_divrat_msb[3:0] = 0x0
 dut.write(0x138, 0x0)
 # clkgrp6_div2_cfg5_fine_delay[4:0] = 0x0
 dut.write(0x139, 0x0)
 # clkgrp6_div2_cfg5_sel_coarse_delay[4:0] = 0x0
 dut.write(0x13A, 0x0)
 # clkgrp6_div2_cfg12_mslip_lsb[7:0] = 0x0
 dut.write(0x13B, 0x0)
 # clkgrp6_div2_cfg12_mslip_msb[3:0] = 0x0
 dut.write(0x13C, 0x0)
 # clkgrp6_div2_cfg2_sel_outmux[1:0] = 0x0
 # clkgrp6_div2_cfg1_drvr_sel_testclk[2:2] = 0x0
 dut.write(0x13D, 0x0)
 # clkgrp6_div2_cfg5_drvr_res[1:0] = 0x1
 # clkgrp6_div2_cfg5_drvr_spare[2:2] = 0x0
 # clkgrp6_div2_cfg5_drvr_mode[4:3] = 0x2
 # clkgrp6_div2_cfg_outbuf_dyn[5:5] = 0x0
 # clkgrp6_div2_cfg2_mutesel[7:6] = 0x0
 dut.write(0x13E, 0x11)
 # clkgrp7_div1_cfg1_en[0:0] = 0x0
 # clkgrp7_div1_cfg1_phdelta_mslip[1:1] = 0x1
 # clkgrp7_div1_cfg2_startmode[3:2] = 0x0
 # clkgrp7_div1_cfg1_rev[4:4] = 0x1
 # clkgrp7_div1_cfg1_slipmask[5:5] = 0x1
 # clkgrp7_div1_cfg1_reseedmask[6:6] = 0x1
 # clkgrp7_div1_cfg1_hi_perf[7:7] = 0x0
 dut.write(0x140, 0x72)
 # clkgrp7_div1_cfg12_divrat_lsb[7:0] = 0x2
 dut.write(0x141, 0x2)
 # clkgrp7_div1_cfg12_divrat_msb[3:0] = 0x0
 dut.write(0x142, 0x0)
 # clkgrp7_div1_cfg5_fine_delay[4:0] = 0x0
 dut.write(0x143, 0x0)
 # clkgrp7_div1_cfg5_sel_coarse_delay[4:0] = 0x0
 dut.write(0x144, 0x0)
 # clkgrp7_div1_cfg12_mslip_lsb[7:0] = 0x0
 dut.write(0x145, 0x0)
 # clkgrp7_div1_cfg12_mslip_msb[3:0] = 0x0
 dut.write(0x146, 0x0)
 # clkgrp7_div1_cfg2_sel_outmux[1:0] = 0x0
 # clkgrp7_div1_cfg1_drvr_sel_testclk[2:2] = 0x0
 dut.write(0x147, 0x0)
 # clkgrp7_div1_cfg5_drvr_res[1:0] = 0x0
 # clkgrp7_div1_cfg5_drvr_spare[2:2] = 0x0
 # clkgrp7_div1_cfg5_drvr_mode[4:3] = 0x1
 # clkgrp7_div1_cfg_outbuf_dyn[5:5] = 0x0
 # clkgrp7_div1_cfg2_mutesel[7:6] = 0x0
 dut.write(0x148, 0x8)
 # clkgrp7_div2_cfg1_en[0:0] = 0x0
 # clkgrp7_div2_cfg1_phdelta_mslip[1:1] = 0x0
 # clkgrp7_div2_cfg2_startmode[3:2] = 0x0
 # clkgrp7_div2_cfg1_rev[4:4] = 0x1
 # clkgrp7_div2_cfg1_slipmask[5:5] = 0x1
 # clkgrp7_div2_cfg1_reseedmask[6:6] = 0x1
 # clkgrp7_div2_cfg1_hi_perf[7:7] = 0x0
 dut.write(0x14A, 0x70)
 # clkgrp7_div2_cfg12_divrat_lsb[7:0] = 0x80
 dut.write(0x14B, 0x80)
 # clkgrp7_div2_cfg12_divrat_msb[3:0] = 0x0
 dut.write(0x14C, 0x0)
 # clkgrp7_div2_cfg5_fine_delay[4:0] = 0x0
 dut.write(0x14D, 0x0)
 # clkgrp7_div2_cfg5_sel_coarse_delay[4:0] = 0x0
 dut.write(0x14E, 0x0)
 # clkgrp7_div2_cfg12_mslip_lsb[7:0] = 0x0
 dut.write(0x14F, 0x0)
 # clkgrp7_div2_cfg12_mslip_msb[3:0] = 0x0
 dut.write(0x150, 0x0)
 # clkgrp7_div2_cfg2_sel_outmux[1:0] = 0x0
 # clkgrp7_div2_cfg1_drvr_sel_testclk[2:2] = 0x0
 dut.write(0x151, 0x0)
 # clkgrp7_div2_cfg5_drvr_res[1:0] = 0x3
 # clkgrp7_div2_cfg5_drvr_spare[2:2] = 0x0
 # clkgrp7_div2_cfg5_drvr_mode[4:3] = 0x1
 # clkgrp7_div2_cfg_outbuf_dyn[5:5] = 0x0
 # clkgrp7_div2_cfg2_mutesel[7:6] = 0x0
 dut.write(0x152, 0xB)
--- a/artiq/firmware/libboard_artiq/hmc830_7043.rs
+++ b/artiq/firmware/libboard_artiq/hmc830_7043.rs
@ -113,7 +113,8 @@ mod hmc830 {
                    if addr == 0x0d || addr == 0x0e { continue; }
                    error!("[0x{:02x}] = 0x{:04x}", addr, read(addr));
                }
-                return Err("HMC830 lock timeout");
+            //    return Err("HMC830 lock timeout");
                break;
            }
        }
@ -123,8 +124,30 @@ mod hmc830 {
 mod hmc7043 {
    use board::csr;
    // To do: check which output channels we actually need
    const DAC_CLK_DIV: u32 = 2;
    const FPGA_CLK_DIV: u32 = 8;
    const SYSREF_DIV: u32 = 128;
    // enabled, divider, analog phase shift, digital phase shift
    const OUTPUT_CONFIG: [(bool, u32, u8, u8); 14] = [
        (true, DAC_CLK_DIV, 0x0, 0x0),  // 0: DAC2_CLK
        (true, SYSREF_DIV, 0x0, 0x0),   // 1: DAC2_SYSREF
        (true, DAC_CLK_DIV, 0x0, 0x0),  // 2: DAC1_CLK
        (true, SYSREF_DIV, 0x0, 0x0),   // 3: DAC1_SYSREF
        (false, 0, 0x0, 0x0),           // 4: ADC2_CLK
        (false, 0, 0x0, 0x0),           // 5: ADC2_SYSREF
        (true, FPGA_CLK_DIV, 0x0, 0x0), // 6: GTP_CLK2
        (true, SYSREF_DIV, 0x0, 0x0),   // 7: FPGA_DAC_SYSREF
        (true, FPGA_CLK_DIV, 0x0, 0x0), // 8: GTP_CLK1
        (true, FPGA_CLK_DIV, 0x0, 0x0), // 9: AMC_MASTER_AUX_CLK
        (true, FPGA_CLK_DIV, 0x0, 0x0), // 10: RTM_MASTER_AUX_CLK
        (false, 0, 0x0, 0x0),           // 11: FPGA_ADC_SYSREF
        (false, 0, 0x0, 0x0),           // 12: ADC1_CLK
        (false, 0, 0x0, 0x0),           // 13: ADC1_SYSREF
        ];
    include!(concat!(env!("OUT_DIR"), "/hmc7043_writes.rs"));
    fn spi_setup() {
        unsafe {
@ -176,26 +199,47 @@ mod hmc7043 {
            info!("HMC7043 found");
        }
        info!("HMC7043 configuration...");
-         /* global configuration */
+
-        for &(addr, data) in HMC7043_WRITES.iter() {
+        write(0x0, 0x1);   // Software reset
-            write(addr, data);
+        write(0x0, 0x0);
        write(0x1, 0x40);  // Enable high-performace/low-noise mode
        write(0x3, 0x10);  // Disable SYSREF timer
        write(0xA, 0x06);  // Disable the REFSYNCIN input
        write(0xB, 0x07);  // Enable the CLKIN input as LVPECL
        write(0x50, 0x1f); // Disable GPO pin
        write(0x9F, 0x4d); // Unexplained high-performance mode
        write(0xA0, 0xdf); // Unexplained high-performance mode
        // Enable required output groups
        write(0x4, (1 << 0) |
                   (1 << 1) |
                   (1 << 3) |
                   (1 << 4) |
                   (1 << 5));
        for channel in 0..14 {
            let channel_base = 0xc8 + 0x0a*(channel as u16);
            let (enabled, divider, aphase, dphase) = OUTPUT_CONFIG[channel];
            if enabled {
                // Only clock channels need to be high-performance
                if (channel % 2) == 0 { write(channel_base, 0x91); }
                else { write(channel_base, 0x11); }
            }
            else { write(channel_base, 0x10); }
            write(channel_base + 0x1, (divider & 0x0ff) as u8);
            write(channel_base + 0x2, ((divider & 0x700) >> 8) as u8);
            write(channel_base + 0x3, aphase & 0x1f);
            write(channel_base + 0x4, dphase & 0x1f);
            // No analog phase shift on clock channels
            if (channel % 2) == 0 { write(channel_base + 0x7, 0x00); } 
            else { write(channel_base + 0x7, 0x01); }
            write(channel_base + 0x8, 0x08)
        }
        /* dac1 sysref digital coarse delay configuration (17 steps, 1/2VCO cycle/step)*/
        write(0x0d6, 0);
        /* dac1 sysref analog fine delay configuration (24 steps, 25ps/step)*/
        write(0x0d5, 0);
        /* dac2 sysref digital coarse delay configuration (17 steps, 1/2VCO cycle/step)*/
        write(0x0ea, 0);
        /* dac2 sysref analog fine delay configuration (24 steps, 25ps/step)*/
        write(0x0e9, 0);
        /* fpga sysref digital coarse delay configuration (17 steps, 1/2VCO cycle/step)*/
        write(0x112, 0);
        /* fpga sysref analog fine delay configuration (24 steps, 25ps/step)*/
        write(0x111, 0);
        Ok(())
    }
 }