#ifdef CVMX_BUILD_FOR_LINUX_KERNEL
#include <asm/octeon/cvmx.h>
#include <asm/octeon/cvmx-qlm.h>
#else
#if !defined(__FreeBSD__) || !defined(_KERNEL)
#include <cvmx.h>
#include <cvmx-qlm.h>
#else
#include "cvmx.h"
#include "cvmx-qlm.h"
#endif
#endif
const __cvmx_qlm_jtag_field_t __cvmx_qlm_jtag_field_cn56xx[] =
{
{"prbs_error_count", 267, 220}, // BIST/PRBS error count (only valid if pbrs_lock asserted)
{"prbs_unlock_count", 219, 212}, // BIST/PRBS unlock count (only valid if pbrs_lock asserted)
{"prbs_locked", 211, 211}, // BIST/PRBS lock (asserted after QLM achieves lock)
{"reset_prbs", 210, 210}, // BIST/PRBS reset (write 0 to reset)
{"run_prbs", 209, 209}, // run PRBS test pattern
{"run_bist", 208, 208}, // run bist (May only work for PCIe ?)
{"unknown", 207, 202}, //
{"biasdrvsel", 201, 199}, // assign biasdrvsel = fus_cfg_reg[201:199] ^ jtg_cfg_reg[201:199] ^ ((pi_qlm_cfg == 2'h0) ? 3'h4 : (pi_qlm_cfg == 2'h2) ? 3'h7 : 3'h2);
{"biasbuffsel", 198, 196}, // assign biasbuffsel = fus_cfg_reg[198:196] ^ jtg_cfg_reg[198:196] ^ 3'h4;
{"tcoeff", 195, 192}, // assign tcoeff = fus_cfg_reg[195:192] ^ jtg_cfg_reg[195:192] ^ (pi_qlm_cfg[1] ? 4'h0 : 4'hc);
{"mb5000", 181, 181}, // assign mb5000 = fus_cfg_reg[181] ^ jtg_cfg_reg[181] ^ 1'h0;
{"interpbw", 180, 176}, // assign interpbw = fus_cfg_reg[180:176] ^ jtg_cfg_reg[180:176] ^ ((qlm_spd == 2'h0) ? 5'h1f : (qlm_spd == 2'h1) ? 5'h10 : 5'h0);
{"mb", 175, 172}, // assign mb = fus_cfg_reg[175:172] ^ jtg_cfg_reg[175:172] ^ 4'h0;
{"bwoff", 171, 160}, // assign bwoff = fus_cfg_reg[171:160] ^ jtg_cfg_reg[171:160] ^ 12'h0;
{"bg_ref_sel", 153, 153}, // assign bg_ref_sel = fus_cfg_reg[153] ^ jtg_cfg_reg[153] ^ 1'h0;
{"div2en", 152, 152}, // assign div2en = fus_cfg_reg[152] ^ jtg_cfg_reg[152] ^ 1'h0;
{"trimen", 151, 150}, // assign trimen = fus_cfg_reg[151:150] ^ jtg_cfg_reg[151:150] ^ 2'h0;
{"clkr", 149, 144}, // assign clkr = fus_cfg_reg[149:144] ^ jtg_cfg_reg[149:144] ^ 6'h0;
{"clkf", 143, 132}, // assign clkf = fus_cfg_reg[143:132] ^ jtg_cfg_reg[143:132] ^ 12'h18;
{"bwadj", 131, 120}, // assign bwadj = fus_cfg_reg[131:120] ^ jtg_cfg_reg[131:120] ^ 12'h30;
{"shlpbck", 119, 118}, // assign shlpbck = fus_cfg_reg[119:118] ^ jtg_cfg_reg[119:118] ^ 2'h0;
{"serdes_pll_byp", 117, 117}, // assign serdes_pll_byp = fus_cfg_reg[117] ^ jtg_cfg_reg[117] ^ 1'h0;
{"ic50dac", 116, 112}, // assign ic50dac = fus_cfg_reg[116:112] ^ jtg_cfg_reg[116:112] ^ 5'h11;
{"sl_posedge_sample", 111, 111}, // assign sl_posedge_sample = fus_cfg_reg[111] ^ jtg_cfg_reg[111] ^ 1'h0;
{"sl_enable", 110, 110}, // assign sl_enable = fus_cfg_reg[110] ^ jtg_cfg_reg[110] ^ 1'h0;
{"rx_rout_comp_bypass", 109, 109}, // assign rx_rout_comp_bypass = fus_cfg_reg[109] ^ jtg_cfg_reg[109] ^ 1'h0;
{"ir50dac", 108, 104}, // assign ir50dac = fus_cfg_reg[108:104] ^ jtg_cfg_reg[108:104] ^ 5'h11;
{"rx_res_offset", 103, 100}, // assign rx_res_offset = fus_cfg_reg[103:100] ^ jtg_cfg_reg[103:100] ^ 4'h2;
{"rx_rout_comp_value", 99, 96}, // assign rx_rout_comp_value = fus_cfg_reg[99:96] ^ jtg_cfg_reg[99:96] ^ 4'h7;
{"tx_rout_comp_value", 95, 92}, // assign tx_rout_comp_value = fus_cfg_reg[95:92] ^ jtg_cfg_reg[95:92] ^ 4'h7;
{"tx_res_offset", 91, 88}, // assign tx_res_offset = fus_cfg_reg[91:88] ^ jtg_cfg_reg[91:88] ^ 4'h1;
{"tx_rout_comp_bypass", 87, 87}, // assign tx_rout_comp_bypass = fus_cfg_reg[87] ^ jtg_cfg_reg[87] ^ 1'h0;
{"idle_dac", 86, 84}, // assign idle_dac = fus_cfg_reg[86:84] ^ jtg_cfg_reg[86:84] ^ 3'h4;
{"hyst_en", 83, 83}, // assign hyst_en = fus_cfg_reg[83] ^ jtg_cfg_reg[83] ^ 1'h1;
{"rndt", 82, 82}, // assign rndt = fus_cfg_reg[82] ^ jtg_cfg_reg[82] ^ 1'h0;
{"cfg_tx_com", 79, 79}, // CN52XX cfg_tx_com = fus_cfg_reg[79] ^ jtg_cfg_reg[79] ^ 1'h0;
{"cfg_cdr_errcor", 78, 78}, // CN52XX cfg_cdr_errcor = fus_cfg_reg[78] ^ jtg_cfg_reg[78] ^ 1'h0;
{"cfg_cdr_secord", 77, 77}, // CN52XX cfg_cdr_secord = fus_cfg_reg[77] ^ jtg_cfg_reg[77] ^ 1'h1;
{"cfg_cdr_rotate", 76, 76}, // assign cfg_cdr_rotate = fus_cfg_reg[76] ^ jtg_cfg_reg[76] ^ 1'h0;
{"cfg_cdr_rqoffs", 75, 68}, // assign cfg_cdr_rqoffs = fus_cfg_reg[75:68] ^ jtg_cfg_reg[75:68] ^ 8'h40;
{"cfg_cdr_incx", 67, 64}, // assign cfg_cdr_incx = fus_cfg_reg[67:64] ^ jtg_cfg_reg[67:64] ^ 4'h2;
{"cfg_cdr_state", 63, 56}, // assign cfg_cdr_state = fus_cfg_reg[63:56] ^ jtg_cfg_reg[63:56] ^ 8'h0;
{"cfg_cdr_bypass", 55, 55}, // assign cfg_cdr_bypass = fus_cfg_reg[55] ^ jtg_cfg_reg[55] ^ 1'h0;
{"cfg_tx_byp", 54, 54}, // assign cfg_tx_byp = fus_cfg_reg[54] ^ jtg_cfg_reg[54] ^ 1'h0;
{"cfg_tx_val", 53, 44}, // assign cfg_tx_val = fus_cfg_reg[53:44] ^ jtg_cfg_reg[53:44] ^ 10'h0;
{"cfg_rx_pol_set", 43, 43}, // assign cfg_rx_pol_set = fus_cfg_reg[43] ^ jtg_cfg_reg[43] ^ 1'h0;
{"cfg_rx_pol_clr", 42, 42}, // assign cfg_rx_pol_clr = fus_cfg_reg[42] ^ jtg_cfg_reg[42] ^ 1'h0;
{"cfg_cdr_bw_ctl", 41, 40}, // assign cfg_cdr_bw_ctl = fus_cfg_reg[41:40] ^ jtg_cfg_reg[41:40] ^ 2'h0;
{"cfg_rst_n_set", 39, 39}, // assign cfg_rst_n_set = fus_cfg_reg[39] ^ jtg_cfg_reg[39] ^ 1'h0;
{"cfg_rst_n_clr", 38, 38}, // assign cfg_rst_n_clr = fus_cfg_reg[38] ^ jtg_cfg_reg[38] ^ 1'h0;
{"cfg_tx_clk2", 37, 37}, // assign cfg_tx_clk2 = fus_cfg_reg[37] ^ jtg_cfg_reg[37] ^ 1'h0;
{"cfg_tx_clk1", 36, 36}, // assign cfg_tx_clk1 = fus_cfg_reg[36] ^ jtg_cfg_reg[36] ^ 1'h0;
{"cfg_tx_pol_set", 35, 35}, // assign cfg_tx_pol_set = fus_cfg_reg[35] ^ jtg_cfg_reg[35] ^ 1'h0;
{"cfg_tx_pol_clr", 34, 34}, // assign cfg_tx_pol_clr = fus_cfg_reg[34] ^ jtg_cfg_reg[34] ^ 1'h0;
{"cfg_tx_one", 33, 33}, // assign cfg_tx_one = fus_cfg_reg[33] ^ jtg_cfg_reg[33] ^ 1'h0;
{"cfg_tx_zero", 32, 32}, // assign cfg_tx_zero = fus_cfg_reg[32] ^ jtg_cfg_reg[32] ^ 1'h0;
{"cfg_rxd_wait", 31, 28}, // assign cfg_rxd_wait = fus_cfg_reg[31:28] ^ jtg_cfg_reg[31:28] ^ 4'h3;
{"cfg_rxd_short", 27, 27}, // assign cfg_rxd_short = fus_cfg_reg[27] ^ jtg_cfg_reg[27] ^ 1'h0;
{"cfg_rxd_set", 26, 26}, // assign cfg_rxd_set = fus_cfg_reg[26] ^ jtg_cfg_reg[26] ^ 1'h0;
{"cfg_rxd_clr", 25, 25}, // assign cfg_rxd_clr = fus_cfg_reg[25] ^ jtg_cfg_reg[25] ^ 1'h0;
{"cfg_loopback", 24, 24}, // assign cfg_loopback = fus_cfg_reg[24] ^ jtg_cfg_reg[24] ^ 1'h0;
{"cfg_tx_idle_set", 23, 23}, // assign cfg_tx_idle_set = fus_cfg_reg[23] ^ jtg_cfg_reg[23] ^ 1'h0;
{"cfg_tx_idle_clr", 22, 22}, // assign cfg_tx_idle_clr = fus_cfg_reg[22] ^ jtg_cfg_reg[22] ^ 1'h0;
{"cfg_rx_idle_set", 21, 21}, // assign cfg_rx_idle_set = fus_cfg_reg[21] ^ jtg_cfg_reg[21] ^ 1'h0;
{"cfg_rx_idle_clr", 20, 20}, // assign cfg_rx_idle_clr = fus_cfg_reg[20] ^ jtg_cfg_reg[20] ^ 1'h0;
{"cfg_rx_idle_thr", 19, 16}, // assign cfg_rx_idle_thr = fus_cfg_reg[19:16] ^ jtg_cfg_reg[19:16] ^ 4'h0;
{"cfg_com_thr", 15, 12}, // assign cfg_com_thr = fus_cfg_reg[15:12] ^ jtg_cfg_reg[15:12] ^ 4'h3;
{"cfg_rx_offset", 11, 8}, // assign cfg_rx_offset = fus_cfg_reg[11:8] ^ jtg_cfg_reg[11:8] ^ 4'h4;
{"cfg_skp_max", 7, 4}, // assign cfg_skp_max = fus_cfg_reg[7:4] ^ jtg_cfg_reg[7:4] ^ 4'hc;
{"cfg_skp_min", 3, 0}, // assign cfg_skp_min = fus_cfg_reg[3:0] ^ jtg_cfg_reg[3:0] ^ 4'h4;
{NULL, -1, -1}
};
const __cvmx_qlm_jtag_field_t __cvmx_qlm_jtag_field_cn52xx[] =
{
{"prbs_error_count", 267, 220}, // BIST/PRBS error count (only valid if pbrs_lock asserted)
{"prbs_unlock_count", 219, 212}, // BIST/PRBS unlock count (only valid if pbrs_lock asserted)
{"prbs_locked", 211, 211}, // BIST/PRBS lock (asserted after QLM achieves lock)
{"reset_prbs", 210, 210}, // BIST/PRBS reset (write 0 to reset)
{"run_prbs", 209, 209}, // run PRBS test pattern
{"run_bist", 208, 208}, // run bist (May only work for PCIe ?)
{"unknown", 207, 202}, //
{"biasdrvsel", 201, 199}, // assign biasdrvsel = fus_cfg_reg[201:199] ^ jtg_cfg_reg[201:199] ^ ((pi_qlm_cfg == 2'h0) ? 3'h4 : (pi_qlm_cfg == 2'h2) ? 3'h7 : 3'h2);
{"biasbuffsel", 198, 196}, // assign biasbuffsel = fus_cfg_reg[198:196] ^ jtg_cfg_reg[198:196] ^ 3'h4;
{"tcoeff", 195, 192}, // assign tcoeff = fus_cfg_reg[195:192] ^ jtg_cfg_reg[195:192] ^ (pi_qlm_cfg[1] ? 4'h0 : 4'hc);
{"mb5000", 181, 181}, // assign mb5000 = fus_cfg_reg[181] ^ jtg_cfg_reg[181] ^ 1'h0;
{"interpbw", 180, 176}, // assign interpbw = fus_cfg_reg[180:176] ^ jtg_cfg_reg[180:176] ^ ((qlm_spd == 2'h0) ? 5'h1f : (qlm_spd == 2'h1) ? 5'h10 : 5'h0);
{"mb", 175, 172}, // assign mb = fus_cfg_reg[175:172] ^ jtg_cfg_reg[175:172] ^ 4'h0;
{"bwoff", 171, 160}, // assign bwoff = fus_cfg_reg[171:160] ^ jtg_cfg_reg[171:160] ^ 12'h0;
{"bg_ref_sel", 153, 153}, // assign bg_ref_sel = fus_cfg_reg[153] ^ jtg_cfg_reg[153] ^ 1'h0;
{"div2en", 152, 152}, // assign div2en = fus_cfg_reg[152] ^ jtg_cfg_reg[152] ^ 1'h0;
{"trimen", 151, 150}, // assign trimen = fus_cfg_reg[151:150] ^ jtg_cfg_reg[151:150] ^ 2'h0;
{"clkr", 149, 144}, // assign clkr = fus_cfg_reg[149:144] ^ jtg_cfg_reg[149:144] ^ 6'h0;
{"clkf", 143, 132}, // assign clkf = fus_cfg_reg[143:132] ^ jtg_cfg_reg[143:132] ^ 12'h18;
{"bwadj", 131, 120}, // assign bwadj = fus_cfg_reg[131:120] ^ jtg_cfg_reg[131:120] ^ 12'h30;
{"shlpbck", 119, 118}, // assign shlpbck = fus_cfg_reg[119:118] ^ jtg_cfg_reg[119:118] ^ 2'h0;
{"serdes_pll_byp", 117, 117}, // assign serdes_pll_byp = fus_cfg_reg[117] ^ jtg_cfg_reg[117] ^ 1'h0;
{"ic50dac", 116, 112}, // assign ic50dac = fus_cfg_reg[116:112] ^ jtg_cfg_reg[116:112] ^ 5'h11;
{"sl_posedge_sample", 111, 111}, // assign sl_posedge_sample = fus_cfg_reg[111] ^ jtg_cfg_reg[111] ^ 1'h0;
{"sl_enable", 110, 110}, // assign sl_enable = fus_cfg_reg[110] ^ jtg_cfg_reg[110] ^ 1'h0;
{"rx_rout_comp_bypass", 109, 109}, // assign rx_rout_comp_bypass = fus_cfg_reg[109] ^ jtg_cfg_reg[109] ^ 1'h0;
{"ir50dac", 108, 104}, // assign ir50dac = fus_cfg_reg[108:104] ^ jtg_cfg_reg[108:104] ^ 5'h11;
{"rx_res_offset", 103, 100}, // assign rx_res_offset = fus_cfg_reg[103:100] ^ jtg_cfg_reg[103:100] ^ 4'h2;
{"rx_rout_comp_value", 99, 96}, // assign rx_rout_comp_value = fus_cfg_reg[99:96] ^ jtg_cfg_reg[99:96] ^ 4'h7;
{"tx_rout_comp_value", 95, 92}, // assign tx_rout_comp_value = fus_cfg_reg[95:92] ^ jtg_cfg_reg[95:92] ^ 4'h7;
{"tx_res_offset", 91, 88}, // assign tx_res_offset = fus_cfg_reg[91:88] ^ jtg_cfg_reg[91:88] ^ 4'h1;
{"tx_rout_comp_bypass", 87, 87}, // assign tx_rout_comp_bypass = fus_cfg_reg[87] ^ jtg_cfg_reg[87] ^ 1'h0;
{"idle_dac", 86, 84}, // assign idle_dac = fus_cfg_reg[86:84] ^ jtg_cfg_reg[86:84] ^ 3'h4;
{"hyst_en", 83, 83}, // assign hyst_en = fus_cfg_reg[83] ^ jtg_cfg_reg[83] ^ 1'h1;
{"rndt", 82, 82}, // assign rndt = fus_cfg_reg[82] ^ jtg_cfg_reg[82] ^ 1'h0;
{"cfg_tx_com", 79, 79}, // CN52XX cfg_tx_com = fus_cfg_reg[79] ^ jtg_cfg_reg[79] ^ 1'h0;
{"cfg_cdr_errcor", 78, 78}, // CN52XX cfg_cdr_errcor = fus_cfg_reg[78] ^ jtg_cfg_reg[78] ^ 1'h0;
{"cfg_cdr_secord", 77, 77}, // CN52XX cfg_cdr_secord = fus_cfg_reg[77] ^ jtg_cfg_reg[77] ^ 1'h1;
{"cfg_cdr_rotate", 76, 76}, // assign cfg_cdr_rotate = fus_cfg_reg[76] ^ jtg_cfg_reg[76] ^ 1'h0;
{"cfg_cdr_rqoffs", 75, 68}, // assign cfg_cdr_rqoffs = fus_cfg_reg[75:68] ^ jtg_cfg_reg[75:68] ^ 8'h40;
{"cfg_cdr_incx", 67, 64}, // assign cfg_cdr_incx = fus_cfg_reg[67:64] ^ jtg_cfg_reg[67:64] ^ 4'h2;
{"cfg_cdr_state", 63, 56}, // assign cfg_cdr_state = fus_cfg_reg[63:56] ^ jtg_cfg_reg[63:56] ^ 8'h0;
{"cfg_cdr_bypass", 55, 55}, // assign cfg_cdr_bypass = fus_cfg_reg[55] ^ jtg_cfg_reg[55] ^ 1'h0;
{"cfg_tx_byp", 54, 54}, // assign cfg_tx_byp = fus_cfg_reg[54] ^ jtg_cfg_reg[54] ^ 1'h0;
{"cfg_tx_val", 53, 44}, // assign cfg_tx_val = fus_cfg_reg[53:44] ^ jtg_cfg_reg[53:44] ^ 10'h0;
{"cfg_rx_pol_set", 43, 43}, // assign cfg_rx_pol_set = fus_cfg_reg[43] ^ jtg_cfg_reg[43] ^ 1'h0;
{"cfg_rx_pol_clr", 42, 42}, // assign cfg_rx_pol_clr = fus_cfg_reg[42] ^ jtg_cfg_reg[42] ^ 1'h0;
{"cfg_cdr_bw_ctl", 41, 40}, // assign cfg_cdr_bw_ctl = fus_cfg_reg[41:40] ^ jtg_cfg_reg[41:40] ^ 2'h0;
{"cfg_rst_n_set", 39, 39}, // assign cfg_rst_n_set = fus_cfg_reg[39] ^ jtg_cfg_reg[39] ^ 1'h0;
{"cfg_rst_n_clr", 38, 38}, // assign cfg_rst_n_clr = fus_cfg_reg[38] ^ jtg_cfg_reg[38] ^ 1'h0;
{"cfg_tx_clk2", 37, 37}, // assign cfg_tx_clk2 = fus_cfg_reg[37] ^ jtg_cfg_reg[37] ^ 1'h0;
{"cfg_tx_clk1", 36, 36}, // assign cfg_tx_clk1 = fus_cfg_reg[36] ^ jtg_cfg_reg[36] ^ 1'h0;
{"cfg_tx_pol_set", 35, 35}, // assign cfg_tx_pol_set = fus_cfg_reg[35] ^ jtg_cfg_reg[35] ^ 1'h0;
{"cfg_tx_pol_clr", 34, 34}, // assign cfg_tx_pol_clr = fus_cfg_reg[34] ^ jtg_cfg_reg[34] ^ 1'h0;
{"cfg_tx_one", 33, 33}, // assign cfg_tx_one = fus_cfg_reg[33] ^ jtg_cfg_reg[33] ^ 1'h0;
{"cfg_tx_zero", 32, 32}, // assign cfg_tx_zero = fus_cfg_reg[32] ^ jtg_cfg_reg[32] ^ 1'h0;
{"cfg_rxd_wait", 31, 28}, // assign cfg_rxd_wait = fus_cfg_reg[31:28] ^ jtg_cfg_reg[31:28] ^ 4'h3;
{"cfg_rxd_short", 27, 27}, // assign cfg_rxd_short = fus_cfg_reg[27] ^ jtg_cfg_reg[27] ^ 1'h0;
{"cfg_rxd_set", 26, 26}, // assign cfg_rxd_set = fus_cfg_reg[26] ^ jtg_cfg_reg[26] ^ 1'h0;
{"cfg_rxd_clr", 25, 25}, // assign cfg_rxd_clr = fus_cfg_reg[25] ^ jtg_cfg_reg[25] ^ 1'h0;
{"cfg_loopback", 24, 24}, // assign cfg_loopback = fus_cfg_reg[24] ^ jtg_cfg_reg[24] ^ 1'h0;
{"cfg_tx_idle_set", 23, 23}, // assign cfg_tx_idle_set = fus_cfg_reg[23] ^ jtg_cfg_reg[23] ^ 1'h0;
{"cfg_tx_idle_clr", 22, 22}, // assign cfg_tx_idle_clr = fus_cfg_reg[22] ^ jtg_cfg_reg[22] ^ 1'h0;
{"cfg_rx_idle_set", 21, 21}, // assign cfg_rx_idle_set = fus_cfg_reg[21] ^ jtg_cfg_reg[21] ^ 1'h0;
{"cfg_rx_idle_clr", 20, 20}, // assign cfg_rx_idle_clr = fus_cfg_reg[20] ^ jtg_cfg_reg[20] ^ 1'h0;
{"cfg_rx_idle_thr", 19, 16}, // assign cfg_rx_idle_thr = fus_cfg_reg[19:16] ^ jtg_cfg_reg[19:16] ^ 4'h0;
{"cfg_com_thr", 15, 12}, // assign cfg_com_thr = fus_cfg_reg[15:12] ^ jtg_cfg_reg[15:12] ^ 4'h3;
{"cfg_rx_offset", 11, 8}, // assign cfg_rx_offset = fus_cfg_reg[11:8] ^ jtg_cfg_reg[11:8] ^ 4'h4;
{"cfg_skp_max", 7, 4}, // assign cfg_skp_max = fus_cfg_reg[7:4] ^ jtg_cfg_reg[7:4] ^ 4'hc;
{"cfg_skp_min", 3, 0}, // assign cfg_skp_min = fus_cfg_reg[3:0] ^ jtg_cfg_reg[3:0] ^ 4'h4;
{NULL, -1, -1}
};
const __cvmx_qlm_jtag_field_t __cvmx_qlm_jtag_field_cn63xx[] =
{
{"prbs_err_cnt", 299, 252}, // prbs_err_cnt[47..0]
{"prbs_lock", 251, 251}, // prbs_lock
{"jtg_prbs_rst_n", 250, 250}, // jtg_prbs_rst_n
{"jtg_run_prbs31", 249, 249}, // jtg_run_prbs31
{"jtg_run_prbs7", 248, 248}, // jtg_run_prbs7
{"Unused1", 247, 245}, // 0
{"cfg_pwrup_set", 244, 244}, // cfg_pwrup_set
{"cfg_pwrup_clr", 243, 243}, // cfg_pwrup_clr
{"cfg_rst_n_set", 242, 242}, // cfg_rst_n_set
{"cfg_rst_n_clr", 241, 241}, // cfg_rst_n_clr
{"cfg_tx_idle_set", 240, 240}, // cfg_tx_idle_set
{"cfg_tx_idle_clr", 239, 239}, // cfg_tx_idle_clr
{"cfg_tx_byp", 238, 238}, // cfg_tx_byp
{"cfg_tx_byp_inv", 237, 237}, // cfg_tx_byp_inv
{"cfg_tx_byp_val", 236, 227}, // cfg_tx_byp_val[9..0]
{"cfg_loopback", 226, 226}, // cfg_loopback
{"shlpbck", 225, 224}, // shlpbck[1..0]
{"sl_enable", 223, 223}, // sl_enable
{"sl_posedge_sample", 222, 222}, // sl_posedge_sample
{"trimen", 221, 220}, // trimen[1..0]
{"serdes_tx_byp", 219, 219}, // serdes_tx_byp
{"serdes_pll_byp", 218, 218}, // serdes_pll_byp
{"lowf_byp", 217, 217}, // lowf_byp
{"spdsel_byp", 216, 216}, // spdsel_byp
{"div4_byp", 215, 215}, // div4_byp
{"clkf_byp", 214, 208}, // clkf_byp[6..0]
{"Unused2", 207, 206}, // 0
{"biasdrv_hs_ls_byp", 205, 201}, // biasdrv_hs_ls_byp[4..0]
{"tcoeff_hf_ls_byp", 200, 197}, // tcoeff_hf_ls_byp[3..0]
{"biasdrv_hf_byp", 196, 192}, // biasdrv_hf_byp[4..0]
{"tcoeff_hf_byp", 191, 188}, // tcoeff_hf_byp[3..0]
{"Unused3", 187, 186}, // 0
{"biasdrv_lf_ls_byp", 185, 181}, // biasdrv_lf_ls_byp[4..0]
{"tcoeff_lf_ls_byp", 180, 177}, // tcoeff_lf_ls_byp[3..0]
{"biasdrv_lf_byp", 176, 172}, // biasdrv_lf_byp[4..0]
{"tcoeff_lf_byp", 171, 168}, // tcoeff_lf_byp[3..0]
{"Unused4", 167, 167}, // 0
{"interpbw", 166, 162}, // interpbw[4..0]
{"pll_cpb", 161, 159}, // pll_cpb[2..0]
{"pll_cps", 158, 156}, // pll_cps[2..0]
{"pll_diffamp", 155, 152}, // pll_diffamp[3..0]
{"Unused5", 151, 150}, // 0
{"cfg_rx_idle_set", 149, 149}, // cfg_rx_idle_set
{"cfg_rx_idle_clr", 148, 148}, // cfg_rx_idle_clr
{"cfg_rx_idle_thr", 147, 144}, // cfg_rx_idle_thr[3..0]
{"cfg_com_thr", 143, 140}, // cfg_com_thr[3..0]
{"cfg_rx_offset", 139, 136}, // cfg_rx_offset[3..0]
{"cfg_skp_max", 135, 132}, // cfg_skp_max[3..0]
{"cfg_skp_min", 131, 128}, // cfg_skp_min[3..0]
{"cfg_fast_pwrup", 127, 127}, // cfg_fast_pwrup
{"Unused6", 126, 100}, // 0
{"detected_n", 99, 99}, // detected_n
{"detected_p", 98, 98}, // detected_p
{"dbg_res_rx", 97, 94}, // dbg_res_rx[3..0]
{"dbg_res_tx", 93, 90}, // dbg_res_tx[3..0]
{"cfg_tx_pol_set", 89, 89}, // cfg_tx_pol_set
{"cfg_tx_pol_clr", 88, 88}, // cfg_tx_pol_clr
{"cfg_rx_pol_set", 87, 87}, // cfg_rx_pol_set
{"cfg_rx_pol_clr", 86, 86}, // cfg_rx_pol_clr
{"cfg_rxd_set", 85, 85}, // cfg_rxd_set
{"cfg_rxd_clr", 84, 84}, // cfg_rxd_clr
{"cfg_rxd_wait", 83, 80}, // cfg_rxd_wait[3..0]
{"cfg_cdr_limit", 79, 79}, // cfg_cdr_limit
{"cfg_cdr_rotate", 78, 78}, // cfg_cdr_rotate
{"cfg_cdr_bw_ctl", 77, 76}, // cfg_cdr_bw_ctl[1..0]
{"cfg_cdr_trunc", 75, 74}, // cfg_cdr_trunc[1..0]
{"cfg_cdr_rqoffs", 73, 64}, // cfg_cdr_rqoffs[9..0]
{"cfg_cdr_inc2", 63, 58}, // cfg_cdr_inc2[5..0]
{"cfg_cdr_inc1", 57, 52}, // cfg_cdr_inc1[5..0]
{"fusopt_voter_sync", 51, 51}, // fusopt_voter_sync
{"rndt", 50, 50}, // rndt
{"hcya", 49, 49}, // hcya
{"hyst", 48, 48}, // hyst
{"idle_dac", 47, 45}, // idle_dac[2..0]
{"bg_ref_sel", 44, 44}, // bg_ref_sel
{"ic50dac", 43, 39}, // ic50dac[4..0]
{"ir50dac", 38, 34}, // ir50dac[4..0]
{"tx_rout_comp_bypass", 33, 33}, // tx_rout_comp_bypass
{"tx_rout_comp_value", 32, 29}, // tx_rout_comp_value[3..0]
{"tx_res_offset", 28, 25}, // tx_res_offset[3..0]
{"rx_rout_comp_bypass", 24, 24}, // rx_rout_comp_bypass
{"rx_rout_comp_value", 23, 20}, // rx_rout_comp_value[3..0]
{"rx_res_offset", 19, 16}, // rx_res_offset[3..0]
{"rx_cap_gen2", 15, 12}, // rx_cap_gen2[3..0]
{"rx_eq_gen2", 11, 8}, // rx_eq_gen2[3..0]
{"rx_cap_gen1", 7, 4}, // rx_cap_gen1[3..0]
{"rx_eq_gen1", 3, 0}, // rx_eq_gen1[3..0]
{NULL, -1, -1}
};
const __cvmx_qlm_jtag_field_t __cvmx_qlm_jtag_field_cn66xx[] =
{
{"prbs_err_cnt", 303, 256}, // prbs_err_cnt[47..0]
{"prbs_lock", 255, 255}, // prbs_lock
{"jtg_prbs_rx_rst_n", 254, 254}, // jtg_prbs_rx_rst_n
{"jtg_prbs_tx_rst_n", 253, 253}, // jtg_prbs_tx_rst_n
{"jtg_prbs_mode", 252, 251}, // jtg_prbs_mode[252:251]
{"jtg_prbs_rst_n", 250, 250}, // jtg_prbs_rst_n
{"jtg_run_prbs31", 249, 249}, // jtg_run_prbs31 - Use jtg_prbs_mode instead
{"jtg_run_prbs7", 248, 248}, // jtg_run_prbs7 - Use jtg_prbs_mode instead
{"Unused1", 247, 246}, // 0
{"div5_byp", 245, 245}, // div5_byp
{"cfg_pwrup_set", 244, 244}, // cfg_pwrup_set
{"cfg_pwrup_clr", 243, 243}, // cfg_pwrup_clr
{"cfg_rst_n_set", 242, 242}, // cfg_rst_n_set
{"cfg_rst_n_clr", 241, 241}, // cfg_rst_n_clr
{"cfg_tx_idle_set", 240, 240}, // cfg_tx_idle_set
{"cfg_tx_idle_clr", 239, 239}, // cfg_tx_idle_clr
{"cfg_tx_byp", 238, 238}, // cfg_tx_byp
{"cfg_tx_byp_inv", 237, 237}, // cfg_tx_byp_inv
{"cfg_tx_byp_val", 236, 227}, // cfg_tx_byp_val[9..0]
{"cfg_loopback", 226, 226}, // cfg_loopback
{"shlpbck", 225, 224}, // shlpbck[1..0]
{"sl_enable", 223, 223}, // sl_enable
{"sl_posedge_sample", 222, 222}, // sl_posedge_sample
{"trimen", 221, 220}, // trimen[1..0]
{"serdes_tx_byp", 219, 219}, // serdes_tx_byp
{"serdes_pll_byp", 218, 218}, // serdes_pll_byp
{"lowf_byp", 217, 217}, // lowf_byp
{"spdsel_byp", 216, 216}, // spdsel_byp
{"div4_byp", 215, 215}, // div4_byp
{"clkf_byp", 214, 208}, // clkf_byp[6..0]
{"biasdrv_hs_ls_byp", 207, 203}, // biasdrv_hs_ls_byp[4..0]
{"tcoeff_hf_ls_byp", 202, 198}, // tcoeff_hf_ls_byp[4..0]
{"biasdrv_hf_byp", 197, 193}, // biasdrv_hf_byp[4..0]
{"tcoeff_hf_byp", 192, 188}, // tcoeff_hf_byp[4..0]
{"biasdrv_lf_ls_byp", 187, 183}, // biasdrv_lf_ls_byp[4..0]
{"tcoeff_lf_ls_byp", 182, 178}, // tcoeff_lf_ls_byp[4..0]
{"biasdrv_lf_byp", 177, 173}, // biasdrv_lf_byp[4..0]
{"tcoeff_lf_byp", 172, 168}, // tcoeff_lf_byp[4..0]
{"Unused4", 167, 167}, // 0
{"interpbw", 166, 162}, // interpbw[4..0]
{"pll_cpb", 161, 159}, // pll_cpb[2..0]
{"pll_cps", 158, 156}, // pll_cps[2..0]
{"pll_diffamp", 155, 152}, // pll_diffamp[3..0]
{"cfg_err_thr", 151, 150}, // cfg_err_thr
{"cfg_rx_idle_set", 149, 149}, // cfg_rx_idle_set
{"cfg_rx_idle_clr", 148, 148}, // cfg_rx_idle_clr
{"cfg_rx_idle_thr", 147, 144}, // cfg_rx_idle_thr[3..0]
{"cfg_com_thr", 143, 140}, // cfg_com_thr[3..0]
{"cfg_rx_offset", 139, 136}, // cfg_rx_offset[3..0]
{"cfg_skp_max", 135, 132}, // cfg_skp_max[3..0]
{"cfg_skp_min", 131, 128}, // cfg_skp_min[3..0]
{"cfg_fast_pwrup", 127, 127}, // cfg_fast_pwrup
{"Unused6", 126, 101}, // 0
{"cfg_indep_dis", 100, 100}, // cfg_indep_dis
{"detected_n", 99, 99}, // detected_n
{"detected_p", 98, 98}, // detected_p
{"dbg_res_rx", 97, 94}, // dbg_res_rx[3..0]
{"dbg_res_tx", 93, 90}, // dbg_res_tx[3..0]
{"cfg_tx_pol_set", 89, 89}, // cfg_tx_pol_set
{"cfg_tx_pol_clr", 88, 88}, // cfg_tx_pol_clr
{"cfg_rx_pol_set", 87, 87}, // cfg_rx_pol_set
{"cfg_rx_pol_clr", 86, 86}, // cfg_rx_pol_clr
{"cfg_rxd_set", 85, 85}, // cfg_rxd_set
{"cfg_rxd_clr", 84, 84}, // cfg_rxd_clr
{"cfg_rxd_wait", 83, 80}, // cfg_rxd_wait[3..0]
{"cfg_cdr_limit", 79, 79}, // cfg_cdr_limit
{"cfg_cdr_rotate", 78, 78}, // cfg_cdr_rotate
{"cfg_cdr_bw_ctl", 77, 76}, // cfg_cdr_bw_ctl[1..0]
{"cfg_cdr_trunc", 75, 74}, // cfg_cdr_trunc[1..0]
{"cfg_cdr_rqoffs", 73, 64}, // cfg_cdr_rqoffs[9..0]
{"cfg_cdr_inc2", 63, 58}, // cfg_cdr_inc2[5..0]
{"cfg_cdr_inc1", 57, 52}, // cfg_cdr_inc1[5..0]
{"fusopt_voter_sync", 51, 51}, // fusopt_voter_sync
{"rndt", 50, 50}, // rndt
{"hcya", 49, 49}, // hcya
{"hyst", 48, 48}, // hyst
{"idle_dac", 47, 45}, // idle_dac[2..0]
{"bg_ref_sel", 44, 44}, // bg_ref_sel
{"ic50dac", 43, 39}, // ic50dac[4..0]
{"ir50dac", 38, 34}, // ir50dac[4..0]
{"tx_rout_comp_bypass", 33, 33}, // tx_rout_comp_bypass
{"tx_rout_comp_value", 32, 29}, // tx_rout_comp_value[3..0]
{"tx_res_offset", 28, 25}, // tx_res_offset[3..0]
{"rx_rout_comp_bypass", 24, 24}, // rx_rout_comp_bypass
{"rx_rout_comp_value", 23, 20}, // rx_rout_comp_value[3..0]
{"rx_res_offset", 19, 16}, // rx_res_offset[3..0]
{"rx_cap_gen2", 15, 12}, // rx_cap_gen2[3..0]
{"rx_eq_gen2", 11, 8}, // rx_eq_gen2[3..0]
{"rx_cap_gen1", 7, 4}, // rx_cap_gen1[3..0]
{"rx_eq_gen1", 3, 0}, // rx_eq_gen1[3..0]
{NULL, -1, -1}
};
const __cvmx_qlm_jtag_field_t __cvmx_qlm_jtag_field_cn68xx[] =
{
{"prbs_err_cnt", 303, 256}, // prbs_err_cnt[47..0]
{"prbs_lock", 255, 255}, // prbs_lock
{"jtg_prbs_rx_rst_n", 254, 254}, // jtg_prbs_rx_rst_n
{"jtg_prbs_tx_rst_n", 253, 253}, // jtg_prbs_tx_rst_n
{"jtg_prbs_mode", 252, 251}, // jtg_prbs_mode[252:251]
{"jtg_prbs_rst_n", 250, 250}, // jtg_prbs_rst_n
{"jtg_run_prbs31", 249, 249}, // jtg_run_prbs31 - Use jtg_prbs_mode instead
{"jtg_run_prbs7", 248, 248}, // jtg_run_prbs7 - Use jtg_prbs_mode instead
{"Unused1", 247, 245}, // 0
{"cfg_pwrup_set", 244, 244}, // cfg_pwrup_set
{"cfg_pwrup_clr", 243, 243}, // cfg_pwrup_clr
{"cfg_rst_n_set", 242, 242}, // cfg_rst_n_set
{"cfg_rst_n_clr", 241, 241}, // cfg_rst_n_clr
{"cfg_tx_idle_set", 240, 240}, // cfg_tx_idle_set
{"cfg_tx_idle_clr", 239, 239}, // cfg_tx_idle_clr
{"cfg_tx_byp", 238, 238}, // cfg_tx_byp
{"cfg_tx_byp_inv", 237, 237}, // cfg_tx_byp_inv
{"cfg_tx_byp_val", 236, 227}, // cfg_tx_byp_val[9..0]
{"cfg_loopback", 226, 226}, // cfg_loopback
{"shlpbck", 225, 224}, // shlpbck[1..0]
{"sl_enable", 223, 223}, // sl_enable
{"sl_posedge_sample", 222, 222}, // sl_posedge_sample
{"trimen", 221, 220}, // trimen[1..0]
{"serdes_tx_byp", 219, 219}, // serdes_tx_byp
{"serdes_pll_byp", 218, 218}, // serdes_pll_byp
{"lowf_byp", 217, 217}, // lowf_byp
{"spdsel_byp", 216, 216}, // spdsel_byp
{"div4_byp", 215, 215}, // div4_byp
{"clkf_byp", 214, 208}, // clkf_byp[6..0]
{"biasdrv_hs_ls_byp", 207, 203}, // biasdrv_hs_ls_byp[4..0]
{"tcoeff_hf_ls_byp", 202, 198}, // tcoeff_hf_ls_byp[4..0]
{"biasdrv_hf_byp", 197, 193}, // biasdrv_hf_byp[4..0]
{"tcoeff_hf_byp", 192, 188}, // tcoeff_hf_byp[4..0]
{"biasdrv_lf_ls_byp", 187, 183}, // biasdrv_lf_ls_byp[4..0]
{"tcoeff_lf_ls_byp", 182, 178}, // tcoeff_lf_ls_byp[4..0]
{"biasdrv_lf_byp", 177, 173}, // biasdrv_lf_byp[4..0]
{"tcoeff_lf_byp", 172, 168}, // tcoeff_lf_byp[4..0]
{"Unused4", 167, 167}, // 0
{"interpbw", 166, 162}, // interpbw[4..0]
{"pll_cpb", 161, 159}, // pll_cpb[2..0]
{"pll_cps", 158, 156}, // pll_cps[2..0]
{"pll_diffamp", 155, 152}, // pll_diffamp[3..0]
{"cfg_err_thr", 151, 150}, // cfg_err_thr
{"cfg_rx_idle_set", 149, 149}, // cfg_rx_idle_set
{"cfg_rx_idle_clr", 148, 148}, // cfg_rx_idle_clr
{"cfg_rx_idle_thr", 147, 144}, // cfg_rx_idle_thr[3..0]
{"cfg_com_thr", 143, 140}, // cfg_com_thr[3..0]
{"cfg_rx_offset", 139, 136}, // cfg_rx_offset[3..0]
{"cfg_skp_max", 135, 132}, // cfg_skp_max[3..0]
{"cfg_skp_min", 131, 128}, // cfg_skp_min[3..0]
{"cfg_fast_pwrup", 127, 127}, // cfg_fast_pwrup
{"Unused6", 126, 100}, // 0
{"detected_n", 99, 99}, // detected_n
{"detected_p", 98, 98}, // detected_p
{"dbg_res_rx", 97, 94}, // dbg_res_rx[3..0]
{"dbg_res_tx", 93, 90}, // dbg_res_tx[3..0]
{"cfg_tx_pol_set", 89, 89}, // cfg_tx_pol_set
{"cfg_tx_pol_clr", 88, 88}, // cfg_tx_pol_clr
{"cfg_rx_pol_set", 87, 87}, // cfg_rx_pol_set
{"cfg_rx_pol_clr", 86, 86}, // cfg_rx_pol_clr
{"cfg_rxd_set", 85, 85}, // cfg_rxd_set
{"cfg_rxd_clr", 84, 84}, // cfg_rxd_clr
{"cfg_rxd_wait", 83, 80}, // cfg_rxd_wait[3..0]
{"cfg_cdr_limit", 79, 79}, // cfg_cdr_limit
{"cfg_cdr_rotate", 78, 78}, // cfg_cdr_rotate
{"cfg_cdr_bw_ctl", 77, 76}, // cfg_cdr_bw_ctl[1..0]
{"cfg_cdr_trunc", 75, 74}, // cfg_cdr_trunc[1..0]
{"cfg_cdr_rqoffs", 73, 64}, // cfg_cdr_rqoffs[9..0]
{"cfg_cdr_inc2", 63, 58}, // cfg_cdr_inc2[5..0]
{"cfg_cdr_inc1", 57, 52}, // cfg_cdr_inc1[5..0]
{"fusopt_voter_sync", 51, 51}, // fusopt_voter_sync
{"rndt", 50, 50}, // rndt
{"hcya", 49, 49}, // hcya
{"hyst", 48, 48}, // hyst
{"idle_dac", 47, 45}, // idle_dac[2..0]
{"bg_ref_sel", 44, 44}, // bg_ref_sel
{"ic50dac", 43, 39}, // ic50dac[4..0]
{"ir50dac", 38, 34}, // ir50dac[4..0]
{"tx_rout_comp_bypass", 33, 33}, // tx_rout_comp_bypass
{"tx_rout_comp_value", 32, 29}, // tx_rout_comp_value[3..0]
{"tx_res_offset", 28, 25}, // tx_res_offset[3..0]
{"rx_rout_comp_bypass", 24, 24}, // rx_rout_comp_bypass
{"rx_rout_comp_value", 23, 20}, // rx_rout_comp_value[3..0]
{"rx_res_offset", 19, 16}, // rx_res_offset[3..0]
{"rx_cap_gen2", 15, 12}, // rx_cap_gen2[3..0]
{"rx_eq_gen2", 11, 8}, // rx_eq_gen2[3..0]
{"rx_cap_gen1", 7, 4}, // rx_cap_gen1[3..0]
{"rx_eq_gen1", 3, 0}, // rx_eq_gen1[3..0]
{NULL, -1, -1}
};