You cannot select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.

504 lines
19 KiB
Verilog

// © IBM Corp. 2022
// Licensed under the Apache License, Version 2.0 (the "License"), as modified by
// the terms below; you may not use the files in this repository except in
// compliance with the License as modified.
// You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0
//
// Modified Terms:
//
// 1) For the purpose of the patent license granted to you in Section 3 of the
// License, the "Work" hereby includes implementations of the work of authorship
// in physical form.
//
// 2) Notwithstanding any terms to the contrary in the License, any licenses
// necessary for implementation of the Work that are available from OpenPOWER
// via the Power ISA End User License Agreement (EULA) are explicitly excluded
// hereunder, and may be obtained from OpenPOWER under the terms and conditions
// of the EULA.
//
// Unless required by applicable law or agreed to in writing, the reference design
// 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.
//
// Additional rights, including the ability to physically implement a softcore that
// is compliant with the required sections of the Power ISA Specification, are
// available at no cost under the terms of the OpenPOWER Power ISA EULA, which can be
// obtained (along with the Power ISA) here: https://openpowerfoundation.org.
/*
create a 'standard' Litex core module
simple non-concurrent I/D WB can be done in node but doesn't do anything useful; to use both,
need to allow at least 2 load credits and add second reload buffer
reset vector is now a `define, but still must hit the pre-configured erat entries; it would require
cp3_nia_q to be loaded from inputs, and would have to override the FFFFFFFC entry RA during erat init por sequence.
input clk,
input reset,
input [31:0] externalResetVector,
input timerInterrupt,
input externalInterrupt,
input softwareInterrupt,
input externalInterruptS,
output dBusWB_CYC,
output dBusWB_STB,
input dBusWB_ACK,
output dBusWB_WE,
output [29:0] dBusWB_ADR,
input [31:0] dBusWB_DAT_MISO,
output [31:0] dBusWB_DAT_MOSI,
output [3:0] dBusWB_SEL,
input dBusWB_ERR,
output [1:0] dBusWB_BTE,
output [2:0] dBusWB_CTI,
*/
`include "tri_a2o.vh"
`timescale 1ns/1ps
module a2owb (
input clk_1x,
input clk_2x,
input rst,
input [0:31] cfg_dat,
input cfg_wr,
output [0:31] status,
input timerInterrupt,
input externalInterrupt,
input softwareInterrupt,
input externalInterruptS,
output wb_stb,
output wb_cyc,
output [31:0] wb_adr,
output wb_we,
output [3:0] wb_sel,
output [31:0] wb_datw,
input wb_ack,
input [31:0] wb_datr
);
wire [0:`NCLK_WIDTH-1] nclk;
wire [0:`THREADS-1] an_ac_stcx_complete /*verilator public */;
wire [0:`THREADS-1] an_ac_stcx_pass;
wire an_ac_icbi_ack;
wire [0:1] an_ac_icbi_ack_thread;
wire an_ac_back_inv_lbit;
wire an_ac_back_inv_gs;
wire an_ac_back_inv_ind;
wire ac_an_back_inv_reject;
wire an_ac_reld_data_vld;
wire an_ac_reld_ecc_err;
wire an_ac_reld_ecc_err_ue;
wire an_ac_reld_data_coming;
wire an_ac_reld_ditc;
wire an_ac_reld_crit_qw;
wire an_ac_reld_l1_dump;
wire an_ac_req_ld_pop;
wire an_ac_req_st_pop;
wire an_ac_req_st_gather;
wire ac_an_req_pwr_token;
wire ac_an_req /*verilator public */;
wire ac_an_req_wimg_w;
wire ac_an_req_wimg_i;
wire ac_an_req_wimg_m;
wire ac_an_req_wimg_g;
wire ac_an_req_endian;
wire ac_an_st_data_pwr_token;
wire [64-`REAL_IFAR_WIDTH:63] ac_an_req_ra /*verilator public */;
wire an_ac_back_inv;
wire an_ac_back_inv_local;
wire [0:4] an_ac_back_inv_target;
wire [0:7] an_ac_back_inv_lpar_id;
wire [0:7] ac_an_lpar_id;
wire [0:4] an_ac_reld_core_tag;
wire [0:127] an_ac_reld_data;
wire [0:1] an_ac_reld_qw;
wire [64-`REAL_IFAR_WIDTH:63] an_ac_back_inv_addr;
wire [0:5] ac_an_req_ttype;
wire [0:2] ac_an_req_thread;
wire [0:3] ac_an_req_user_defined;
wire [0:3] ac_an_req_spare_ctrl_a0;
wire [0:4] ac_an_req_ld_core_tag;
wire [0:2] ac_an_req_ld_xfr_len;
wire [0:31] ac_an_st_byte_enbl;
wire [0:255] ac_an_st_data;
wire [0:3] an_ac_req_spare_ctrl_a1;
wire [0:`THREADS-1] an_ac_sync_ack;
wire [0:`THREADS-1] an_ac_reservation_vld;
// ties
wire scan_in;
wire an_ac_rtim_sl_thold_8;
wire an_ac_func_sl_thold_8;
wire an_ac_func_nsl_thold_8;
wire an_ac_ary_nsl_thold_8;
wire an_ac_sg_8;
wire an_ac_fce_8;
wire [0:7] an_ac_abst_scan_in;
wire [0:3] an_ac_scom_sat_id;
wire an_ac_scom_dch;
wire an_ac_scom_cch;
wire an_ac_gsd_test_enable_dc;
wire an_ac_gsd_test_acmode_dc;
wire an_ac_ccflush_dc;
wire an_ac_ccenable_dc;
wire an_ac_lbist_en_dc;
wire an_ac_lbist_ip_dc;
wire an_ac_lbist_ac_mode_dc;
wire an_ac_scan_diag_dc;
wire an_ac_scan_dis_dc_b;
wire [0:8] an_ac_scan_type_dc;
wire an_ac_lbist_ary_wrt_thru_dc;
wire [0:3] an_ac_chipid_dc;
wire [0:7] an_ac_coreid;
wire [0:`THREADS-1] an_ac_pm_thread_stop;
wire [0:`THREADS-1] an_ac_pm_fetch_halt;
wire an_ac_tb_update_enable;
wire an_ac_tb_update_pulse;
wire [0:127] mem_dat;
wire [0:`THREADS-1] ac_an_machine_check;
wire an_ac_debug_stop;
wire [0:`THREADS-1] ac_an_debug_trigger;
wire an_ac_reset_1_complete;
wire an_ac_reset_2_complete;
wire an_ac_reset_3_complete;
wire an_ac_reset_wd_complete;
wire [0:`THREADS-1] an_ac_uncond_dbg_event;
wire [0:2] ac_an_checkstop;
wire [0:127] mem_wr_dat;
// not connected
//wire scan_out;
//wire [0:31] mem_adr;
//wire mem_wr_val;
//wire [0:15] mem_wr_be;
//wire [0:2] ac_an_local_checkstop;
//wire [0:2] ac_an_recov_err;
//wire ac_an_trace_err;
//wire ac_an_livelock_active;
//wire [0:4*`THREADS-1] ac_an_event_bus0;
//wire [0:4*`THREADS-1] ac_an_event_bus1;
//wire ac_an_reset_1_request;
//wire ac_an_reset_2_request;
//wire ac_an_reset_3_request;
//wire ac_an_reset_wd_request;
assign nclk = {clk_1x, rst, clk_2x, 3'b00};
assign mem_dat = 0;
assign an_ac_chipid_dc = 4'h0;
assign an_ac_coreid = 8'h0;
// Pervasive clock control
assign an_ac_rtim_sl_thold_8 = 0;
assign an_ac_func_sl_thold_8 = 0;
assign an_ac_func_nsl_thold_8 = 0;
assign an_ac_ary_nsl_thold_8 = 0;
assign an_ac_sg_8 = 0;
assign an_ac_fce_8 = 0;
assign an_ac_abst_scan_in = 8'h00;
// SCOM
assign an_ac_scom_sat_id = 4'h0;
assign an_ac_scom_dch = 0;
assign an_ac_scom_cch = 0;
// Clock, Test, and LCB Controls
assign scan_in = 0;
assign an_ac_gsd_test_enable_dc = 0;
assign an_ac_gsd_test_acmode_dc = 0;
assign an_ac_ccflush_dc = 0;
assign an_ac_ccenable_dc = 0;
assign an_ac_lbist_en_dc = 0;
assign an_ac_lbist_ip_dc = 0;
assign an_ac_lbist_ac_mode_dc = 0;
assign an_ac_scan_diag_dc = 0;
assign an_ac_scan_dis_dc_b = 0;
assign an_ac_scan_type_dc = 9'h000;
assign an_ac_lbist_ary_wrt_thru_dc = 0;
assign an_ac_reset_1_complete = 0;
assign an_ac_reset_2_complete = 0;
assign an_ac_reset_3_complete = 0;
assign an_ac_reset_wd_complete = 0;
assign an_ac_pm_thread_stop = 0;
assign an_ac_pm_fetch_halt = 0;
assign an_ac_uncond_dbg_event = 0;
c c0(
.nclk(nclk),
.scan_in(scan_in),
.scan_out(),
.an_ac_rtim_sl_thold_8(an_ac_rtim_sl_thold_8),
.an_ac_func_sl_thold_8(an_ac_func_sl_thold_8),
.an_ac_func_nsl_thold_8(an_ac_func_nsl_thold_8),
.an_ac_ary_nsl_thold_8(an_ac_ary_nsl_thold_8),
.an_ac_sg_8(an_ac_sg_8),
.an_ac_fce_8(an_ac_fce_8),
.an_ac_abst_scan_in(an_ac_abst_scan_in),
.an_ac_stcx_complete(an_ac_stcx_complete[0]),
.an_ac_stcx_pass(an_ac_stcx_pass[0]),
.an_ac_reservation_vld(an_ac_reservation_vld[0]),
.an_ac_icbi_ack(an_ac_icbi_ack),
.an_ac_icbi_ack_thread(an_ac_icbi_ack_thread),
.an_ac_sync_ack(an_ac_sync_ack[0]),
.an_ac_back_inv(an_ac_back_inv),
.an_ac_back_inv_addr(an_ac_back_inv_addr),
.an_ac_back_inv_target(an_ac_back_inv_target),
.an_ac_back_inv_local(an_ac_back_inv_local),
.an_ac_back_inv_lbit(an_ac_back_inv_lbit),
.an_ac_back_inv_gs(an_ac_back_inv_gs),
.an_ac_back_inv_ind(an_ac_back_inv_ind),
.an_ac_back_inv_lpar_id(an_ac_back_inv_lpar_id),
.ac_an_back_inv_reject(ac_an_back_inv_reject),
.ac_an_lpar_id(ac_an_lpar_id),
.an_ac_reld_data_vld(an_ac_reld_data_vld),
.an_ac_reld_core_tag(an_ac_reld_core_tag),
.an_ac_reld_data(an_ac_reld_data),
.an_ac_reld_qw(an_ac_reld_qw),
.an_ac_reld_ecc_err(an_ac_reld_ecc_err),
.an_ac_reld_ecc_err_ue(an_ac_reld_ecc_err_ue),
.an_ac_reld_data_coming(an_ac_reld_data_coming),
.an_ac_reld_ditc(an_ac_reld_ditc),
.an_ac_reld_crit_qw(an_ac_reld_crit_qw),
.an_ac_reld_l1_dump(an_ac_reld_l1_dump),
.an_ac_req_spare_ctrl_a1(an_ac_req_spare_ctrl_a1),
.an_ac_flh2l2_gate(an_ac_flh2l2_gate),
.an_ac_req_ld_pop(an_ac_req_ld_pop),
.an_ac_req_st_pop(an_ac_req_st_pop),
.an_ac_req_st_gather(an_ac_req_st_gather),
.an_ac_pm_fetch_halt(an_ac_pm_fetch_halt),
.an_ac_scom_sat_id(an_ac_scom_sat_id),
.an_ac_scom_dch(an_ac_scom_dch),
.an_ac_scom_cch(an_ac_scom_cch),
.ac_an_scom_dch(ac_an_scom_dch),
.ac_an_scom_cch(ac_an_scom_cch),
.ac_an_special_attn(ac_an_special_attn),
.ac_an_checkstop(ac_an_checkstop),
.ac_an_local_checkstop(),
.ac_an_recov_err(),
.ac_an_trace_error(),
.ac_an_livelock_active(),
.an_ac_checkstop(an_ac_checkstop),
.an_ac_external_mchk(an_ac_external_mchk),
.ac_an_event_bus0(),
.an_ac_reset_1_complete(an_ac_reset_1_complete),
.an_ac_reset_2_complete(an_ac_reset_2_complete),
.an_ac_reset_3_complete(an_ac_reset_3_complete),
.an_ac_reset_wd_complete(an_ac_reset_wd_complete),
.ac_an_pm_thread_running(ac_an_pm_thread_running),
.an_ac_pm_thread_stop(an_ac_pm_thread_stop),
.ac_an_power_managed(ac_an_power_managed),
.ac_an_rvwinkle_mode(ac_an_rvwinkle_mode),
.an_ac_gsd_test_enable_dc(an_ac_gsd_test_enable_dc),
.an_ac_gsd_test_acmode_dc(an_ac_gsd_test_acmode_dc),
.an_ac_ccflush_dc(an_ac_ccflush_dc),
.an_ac_ccenable_dc(an_ac_ccenable_dc),
.an_ac_lbist_en_dc(an_ac_lbist_en_dc),
.an_ac_lbist_ip_dc(an_ac_lbist_ip_dc),
.an_ac_lbist_ac_mode_dc(an_ac_lbist_ac_mode_dc),
.an_ac_scan_diag_dc(an_ac_scan_diag_dc),
.an_ac_scan_dis_dc_b(an_ac_scan_dis_dc_b),
.an_ac_scan_type_dc(an_ac_scan_type_dc),
.ac_an_reset_1_request(),
.ac_an_reset_2_request(),
.ac_an_reset_3_request(),
.ac_an_reset_wd_request(),
.an_ac_lbist_ary_wrt_thru_dc(an_ac_lbist_ary_wrt_thru_dc),
.an_ac_sleep_en(an_ac_sleep_en),
.an_ac_ext_interrupt(an_ac_ext_interrupt),
.an_ac_crit_interrupt(an_ac_crit_interrupt),
.an_ac_perf_interrupt(an_ac_perf_interrupt),
.an_ac_hang_pulse(an_ac_hang_pulse),
.an_ac_tb_update_enable(an_ac_tb_update_enable),
.an_ac_tb_update_pulse(an_ac_tb_update_pulse),
.an_ac_chipid_dc(an_ac_chipid_dc),
.an_ac_coreid(an_ac_coreid),
.ac_an_machine_check(ac_an_machine_check),
.an_ac_debug_stop(an_ac_debug_stop),
.ac_an_debug_trigger(ac_an_debug_trigger),
.an_ac_uncond_dbg_event(an_ac_uncond_dbg_event),
.ac_an_req_pwr_token(ac_an_req_pwr_token),
.ac_an_req(ac_an_req),
.ac_an_req_ra(ac_an_req_ra),
.ac_an_req_ttype(ac_an_req_ttype),
.ac_an_req_thread(ac_an_req_thread),
.ac_an_req_wimg_w(ac_an_req_wimg_w),
.ac_an_req_wimg_i(ac_an_req_wimg_i),
.ac_an_req_wimg_m(ac_an_req_wimg_m),
.ac_an_req_wimg_g(ac_an_req_wimg_g),
.ac_an_req_user_defined(ac_an_req_user_defined),
.ac_an_req_spare_ctrl_a0(ac_an_req_spare_ctrl_a0),
.ac_an_req_ld_core_tag(ac_an_req_ld_core_tag),
.ac_an_req_ld_xfr_len(ac_an_req_ld_xfr_len),
.ac_an_st_byte_enbl(ac_an_st_byte_enbl),
.ac_an_st_data(ac_an_st_data),
.ac_an_req_endian(ac_an_req_endian),
.ac_an_st_data_pwr_token(ac_an_st_data_pwr_token)
);
a2l2wb n0(
.clk(clk_1x),
.rst(rst),
.cfg_wr(cfg_wr),
.cfg_dat(cfg_dat),
.status(status),
.timerInterrupt(timerInterrupt),
.externalInterrupt(externalInterrupt),
.softwareInterrupt(softwareInterrupt),
.externalInterruptS(externalInterruptS),
.an_ac_ext_interrupt(an_ac_ext_interrupt),
.an_ac_crit_interrupt(an_ac_crit_interrupt),
.an_ac_perf_interrupt(an_ac_perf_interrupt),
// request
.ac_an_req_pwr_token(ac_an_req_pwr_token),
.ac_an_req(ac_an_req),
.ac_an_req_ra(ac_an_req_ra),
.ac_an_req_ttype(ac_an_req_ttype),
.ac_an_req_thread(ac_an_req_thread),
.ac_an_req_ld_core_tag(ac_an_req_ld_core_tag),
.ac_an_req_ld_xfr_len(ac_an_req_ld_xfr_len),
.ac_an_st_data_pwr_token(ac_an_st_data_pwr_token),
.ac_an_st_byte_enbl(ac_an_st_byte_enbl),
.ac_an_st_data(ac_an_st_data),
.ac_an_req_wimg_w(ac_an_req_wimg_w),
.ac_an_req_wimg_i(ac_an_req_wimg_i),
.ac_an_req_wimg_m(ac_an_req_wimg_m),
.ac_an_req_wimg_g(ac_an_req_wimg_g),
.ac_an_req_endian(ac_an_req_endian),
.ac_an_req_user_defined(ac_an_req_user_defined),
.ac_an_req_spare_ctrl_a0(ac_an_req_spare_ctrl_a0),
// reload
.an_ac_reld_data_vld(an_ac_reld_data_vld),
.an_ac_reld_core_tag(an_ac_reld_core_tag),
.an_ac_reld_data(an_ac_reld_data),
.an_ac_reld_qw(an_ac_reld_qw),
.an_ac_reld_ecc_err(an_ac_reld_ecc_err),
.an_ac_reld_ecc_err_ue(an_ac_reld_ecc_err_ue),
.an_ac_reld_data_coming(an_ac_reld_data_coming),
.an_ac_reld_ditc(an_ac_reld_ditc),
.an_ac_reld_crit_qw(an_ac_reld_crit_qw),
.an_ac_reld_l1_dump(an_ac_reld_l1_dump),
.an_ac_req_spare_ctrl_a1(an_ac_req_spare_ctrl_a1),
// larx/stcx
.an_ac_stcx_complete(an_ac_stcx_complete),
.an_ac_stcx_pass(an_ac_stcx_pass),
.an_ac_reservation_vld(an_ac_reservation_vld),
// icbi
.an_ac_icbi_ack(an_ac_icbi_ack),
.an_ac_icbi_ack_thread(an_ac_icbi_ack_thread),
// back invalidate
.an_ac_back_inv(an_ac_back_inv),
.an_ac_back_inv_addr(an_ac_back_inv_addr),
.an_ac_back_inv_target(an_ac_back_inv_target),
.an_ac_back_inv_local(an_ac_back_inv_local),
.an_ac_back_inv_lbit(an_ac_back_inv_lbit),
.an_ac_back_inv_gs(an_ac_back_inv_gs),
.an_ac_back_inv_ind(an_ac_back_inv_ind),
.an_ac_back_inv_lpar_id(an_ac_back_inv_lpar_id),
.ac_an_back_inv_reject(ac_an_back_inv_reject),
.ac_an_lpar_id(ac_an_lpar_id),
// credits
.an_ac_req_ld_pop(an_ac_req_ld_pop),
.an_ac_req_st_pop(an_ac_req_st_pop),
.an_ac_req_st_gather(an_ac_req_st_gather),
.an_ac_sync_ack(an_ac_sync_ack),
// misc
.an_ac_flh2l2_gate(an_ac_flh2l2_gate),
//.an_ac_reset_1_complete(an_ac_reset_1_complete),
//.an_ac_reset_2_complete(an_ac_reset_2_complete),
//.an_ac_reset_3_complete(an_ac_reset_3_complete),
//.an_ac_reset_wd_complete(an_ac_reset_wd_complete),
.an_ac_sleep_en(an_ac_sleep_en),
.an_ac_hang_pulse(an_ac_hang_pulse),
.an_ac_tb_update_enable(an_ac_tb_update_enable),
.an_ac_tb_update_pulse(an_ac_tb_update_pulse),
//.an_ac_chipid_dc(an_ac_chipid_dc),
//.an_ac_coreid(an_ac_coreid),
.an_ac_debug_stop(an_ac_debug_stop),
.ac_an_debug_trigger(ac_an_debug_trigger),
//.an_ac_uncond_dbg_event(an_ac_uncond_dbg_event),
// scom
//.an_ac_scom_sat_id(an_ac_scom_sat_id),
//.an_ac_scom_dch(an_ac_scom_dch),
//.an_ac_scom_cch(an_ac_scom_cch),
//.ac_an_scom_dch(ac_an_scom_dch),
//.ac_an_scom_cch(ac_an_scom_cch),
// errors
.ac_an_special_attn(ac_an_special_attn),
.ac_an_checkstop(ac_an_checkstop),
//.ac_an_local_checkstop(ac_an_local_checkstop),
//.ac_an_recov_err(ac_an_recov_err),
//.ac_an_trace_error(ac_an_trace_error),
//.ac_an_livelock_active(ac_an_livelock_active),
.an_ac_checkstop(an_ac_checkstop),
.an_ac_external_mchk(an_ac_external_mchk),
.ac_an_machine_check(ac_an_machine_check),
// perfmon
//.ac_an_event_bus0(ac_an_event_bus0),
//.ac_an_event_bus1(ac_an_event_bus1),
// control
.ac_an_pm_thread_running(ac_an_pm_thread_running),
.an_ac_pm_thread_stop(an_ac_pm_thread_stop),
.an_ac_pm_fetch_halt(an_ac_pm_fetch_halt),
// power
.ac_an_power_managed(ac_an_power_managed),
.ac_an_rvwinkle_mode(ac_an_rvwinkle_mode),
// direct-attach mem
.mem_adr(),
.mem_dat(mem_dat),
.mem_wr_be(),
.mem_wr_val(),
.mem_wr_dat(mem_wr_dat),
// wishbone
.wb_stb(wb_stb),
.wb_cyc(wb_cyc),
.wb_adr(wb_adr),
.wb_we(wb_we),
.wb_ack(wb_ack),
.wb_sel(wb_sel),
.wb_datr(wb_datr),
.wb_datw(wb_datw)
);
endmodule