hp-saturn/attic/saturn_core.v

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/*
(c) Raphaël Jacquot 2019
This file is part of hp_saturn.
hp_saturn is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
any later version.
hp_saturn is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with Foobar. If not, see <https://www.gnu.org/licenses/>.
*/
`default_nettype none //
`include "def-clocks.v"
// `include "bus_commands.v"
// `include "hp48_00_bus.v"
// `include "dbg_module.v"
`include "saturn_decoder.v"
`include "saturn_alu.v"
`include "saturn_bus_ctrl.v"
/**************************************************************************************************
*
*
*
*
*
*/
`ifdef SIM
module saturn_core (
i_clk,
i_reset,
o_halt,
o_stall,
o_bus_reset,
i_bus_data_in,
o_bus_data_out,
o_bus_strobe,
o_bus_cmd_data
);
input wire [0:0] i_clk;
input wire [0:0] i_reset;
output wire [0:0] o_halt;
`else
module saturn_core (
clk_25mhz,
btn,
led,
o_stall,
o_bus_reset,
i_bus_data_in,
o_bus_data_out,
o_bus_strobe,
o_bus_cmd_data
);
input wire [0:0] clk_25mhz;
input wire [6:0] btn;
output reg [7:0] led;
wire [0:0] i_clk;
wire [0:0] i_reset;
assign i_clk = clk_25mhz;
assign i_reset = btn[1];
`endif
output wire [0:0] o_stall;
output wire [0:0] o_bus_reset;
input wire [3:0] i_bus_data_in;
output wire [3:0] o_bus_data_out;
output wire [0:0] o_bus_strobe;
output wire [0:0] o_bus_cmd_data;
// clocks
reg [1:0] clk_phase;
reg [0:0] en_reset;
reg [0:0] ck_debugger; // phase 0
reg [0:0] ck_bus_send; // phase 0
reg [0:0] ck_bus_recv; // phase 1
reg [0:0] ck_bus_ecmd; // phase 3
reg [0:0] ck_inst_dec; // phase 2
reg [0:0] ck_inst_exe; // phase 3
reg [0:0] ck_alu_dump; // phase 0
reg [0:0] ck_alu_init; // phase 3
reg [0:0] ck_alu_prep; // phase 1
reg [0:0] ck_alu_calc; // phase 2
reg [0:0] ck_alu_save; // phase 3
reg [0:0] clock_end;
reg [31:0] cycle_ctr;
reg [31:0] max_cycle;
// hp48_bus bus_ctrl (
// .strobe (bus_strobe),
// .reset (reset),
// .address (bus_address),
// .command (bus_command),
// .nibble_in (bus_nibble_in),
// .nibble_out (bus_nibble_out),
// .bus_error (bus_error)
// );
saturn_decoder m_decoder (
.i_clk (i_clk),
.i_reset (i_reset),
.i_cycles (cycle_ctr),
.i_en_dbg (phase_0),
.i_en_dec (phase_2),
.i_pc (reg_pc),
.i_bus_load_pc (alu_bus_load_pc),
.i_stalled (dec_stalled),
.i_nibble (ctrl_bus_nibble_in),
.i_reg_p (reg_p),
.o_inc_pc (inc_pc),
.o_push (push),
.o_pop (pop),
.o_dec_error (inv_opcode),
.o_alu_debug (alu_debug),
.o_ins_addr (ins_addr),
.o_ins_decoded (ins_decoded),
.o_fields_table (fields_table),
.o_field (field),
.o_field_start (field_start),
.o_field_last (field_last),
.o_imm_value (imm_value),
.o_alu_op (alu_op),
.o_alu_no_stall (alu_no_stall),
.o_reg_dest (reg_dest),
.o_reg_src1 (reg_src1),
.o_reg_src2 (reg_src2),
.o_ins_rtn (ins_rtn),
.o_set_xm (set_xm),
.o_set_carry (set_carry),
.o_test_carry (test_carry),
.o_carry_val (carry_val),
.o_ins_set_mode (ins_set_mode),
.o_mode_dec (mode_dec),
.o_ins_alu_op (ins_alu_op),
.o_ins_test_go (ins_test_go),
.o_ins_reset (ins_reset),
.o_ins_config (ins_config),
.o_ins_mem_xfr (ins_mem_xfr),
.o_xfr_dir_out (xfr_dir_out)
);
wire [0:0] inc_pc;
wire [0:0] push;
wire [0:0] pop;
wire [0:0] inv_opcode;
wire [0:0] alu_debug;
wire [19:0] ins_addr;
wire [0:0] ins_decoded;
wire [1:0] fields_table;
wire [3:0] field;
wire [3:0] field_start;
wire [3:0] field_last;
wire [3:0] imm_value;
wire [4:0] alu_op;
wire [0:0] alu_no_stall;
wire [4:0] reg_dest;
wire [4:0] reg_src1;
wire [4:0] reg_src2;
wire [0:0] ins_rtn;
wire [0:0] set_xm;
wire [0:0] set_carry;
wire [0:0] test_carry;
wire [0:0] carry_val;
wire [0:0] ins_set_mode;
wire [0:0] mode_dec;
wire [0:0] ins_alu_op;
wire [0:0] ins_test_go;
wire [0:0] ins_reset;
wire [0:0] ins_config;
wire [0:0] ins_mem_xfr;
wire [0:0] xfr_dir_out;
wire [0:0] ins_unconfig;
saturn_alu m_alu (
.i_clk (i_clk),
.i_reset (i_reset),
.i_phases (clk_phases),
.i_cycle_ctr (cycle_ctr),
.i_stalled (alu_stalled),
.o_en_cycle_cnt (alu_en_cycle_cnt),
.o_reg_dump (alu_reg_dump),
.o_bus_address (alu_bus_address),
.i_bus_data_ptr (ctrl_bus_data_ptr),
.o_bus_data_nibl (alu_bus_data_nibl),
.o_bus_xfr_cnt (alu_bus_xfr_cnt),
.i_bus_nibble_in (ctrl_bus_nibble_in),
.o_bus_nibble_out (alu_bus_nibble_out),
.o_bus_load_pc (alu_bus_load_pc),
.o_bus_load_dp (alu_bus_load_dp),
.o_bus_pc_read (alu_bus_pc_read),
.o_bus_dp_read (alu_bus_dp_read),
.o_bus_dp_write (alu_bus_dp_write),
.o_bus_config (alu_bus_config),
.i_bus_done (ctrl_bus_done),
.i_push (push),
.i_pop (pop),
.i_alu_debug (alu_debug),
.o_alu_stall_dec (alu_stalls_dec),
.i_ins_decoded (ins_decoded),
.i_field_start (field_start),
.i_field_last (field_last),
.i_imm_value (imm_value),
.i_alu_op (alu_op),
.i_alu_no_stall (alu_no_stall),
.i_reg_dest (reg_dest),
.i_reg_src1 (reg_src1),
.i_reg_src2 (reg_src2),
.i_ins_alu_op (ins_alu_op),
.i_ins_test_go (ins_test_go),
.i_ins_set_mode (ins_set_mode),
.i_ins_rtn (ins_rtn),
.i_ins_config (ins_config),
.i_ins_mem_xfr (ins_mem_xfr),
.i_xfr_dir_out (xfr_dir_out),
.i_ins_unconfig (ins_unconfig),
.i_mode_dec (mode_dec),
.i_set_xm (set_xm),
.i_set_carry (set_carry),
.i_test_carry (test_carry),
.i_carry_val (carry_val),
.o_reg_p (reg_p),
.o_pc (reg_pc)
);
wire [0:0] alu_en_cycle_cnt;
wire [0:0] alu_reg_dump;
// interconnections
wire [19:0] alu_bus_address;
wire [3:0] alu_bus_data_nibl;
wire [3:0] alu_bus_xfr_cnt;
wire [0:0] alu_bus_pc_read;
wire [0:0] alu_bus_dp_read;
wire [0:0] alu_bus_dp_write;
wire [0:0] alu_bus_load_pc;
wire [0:0] alu_bus_load_dp;
wire [0:0] alu_bus_config;
wire [3:0] alu_bus_nibble_out;
wire [0:0] alu_stalls_dec;
wire [3:0] reg_p;
wire [19:0] reg_pc;
/*
*
* Bus controller module
*
*/
saturn_bus_ctrl m_bus_ctrl (
// basic stuff
.i_clk (i_clk),
.i_reset (i_reset),
.i_phases (clk_phases),
.i_cycle_ctr (cycle_ctr),
.i_stalled (mem_ctrl_stall),
.i_alu_busy (dec_stalled),
.o_stall_alu (bus_stalls_core),
.o_bus_done (ctrl_bus_done),
//bus i/o
.o_bus_reset (o_bus_reset),
.i_bus_data (i_bus_data_in),
.o_bus_data (o_bus_data_out),
.o_bus_strobe (o_bus_strobe),
.o_bus_cmd_data (o_bus_cmd_data),
// interface to the rest of the machine
.i_alu_pc (reg_pc),
.i_address (alu_bus_address),
.i_data_nibl (alu_bus_data_nibl),
.o_data_ptr (ctrl_bus_data_ptr),
.i_cmd_load_pc (alu_bus_load_pc),
.i_cmd_load_dp (alu_bus_load_dp),
.i_read_pc (alu_bus_pc_read),
.i_cmd_dp_read (alu_bus_dp_read),
.i_cmd_dp_write (alu_bus_dp_write),
.i_cmd_reset (ins_reset),
.i_cmd_config (alu_bus_config),
.i_mem_xfr (ins_mem_xfr),
.i_xfr_out (xfr_dir_out),
.i_xfr_cnt (alu_bus_xfr_cnt),
.i_nibble (alu_bus_nibble_out),
.o_nibble (ctrl_bus_nibble_in)
);
wire [0:0] mem_ctrl_stall;
wire [0:0] bus_stalls_core;
wire [0:0] ctrl_bus_done;
wire [3:0] ctrl_bus_data_ptr;
wire [3:0] ctrl_bus_nibble_in;
// `define DEBUG_CLOCKS
initial begin
clk_phases = 4'b0001;
clock_end = 1'b0;
cycle_ctr = 32'b0;
`ifdef DEBUG_CLOCKS
$monitor("RST %b | CLK %b | CLKP %d | CYCL %d | PC %5h | eRST %b | eDBG %b | eBSND %b | eBRECV %b | eAPR %b | eACALC %b | eINDC %b | eASAVE %b | eINDX %b",
reset, clk, clk_phase, cycle_ctr, reg_pc, en_reset,
en_debugger, en_bus_send,
en_bus_recv, en_alu_prep,
en_alu_calc, en_inst_dec,
en_alu_save, en_inst_exec);
`endif
end
//--------------------------------------------------------------------------------------------------
//
// clock generation
//
//--------------------------------------------------------------------------------------------------
reg [3:0] clk_phases;
wire phase_0;
wire phase_1;
wire phase_2;
wire phase_3;
assign phase_0 = clk_phases[0];
assign phase_1 = clk_phases[1];
assign phase_2 = clk_phases[2];
assign phase_3 = clk_phases[3];
always @(posedge i_clk) begin
clk_phases <= {clk_phases[2:0], clk_phases[3]};
if (alu_en_cycle_cnt) begin
// if (phase_1) $display("TIMING 1: [%d] increment cycle counter", cycle_ctr);
cycle_ctr <= cycle_ctr + { {31{1'b0}}, phase_0 };
if (cycle_ctr == (max_cycle + 1)) begin
$display(".-----------------------------.");
$display("| OUT OF CYCLES %d |", cycle_ctr);
$display("`-----------------------------´");
clock_end <= 1;
end
end
if (i_reset) begin
clk_phases <= 4'b0001;
cycle_ctr <= ~0;
clock_end <= 0;
max_cycle <= 70;
end
end
//--------------------------------------------------------------------------------------------------
//
// test cases
//
//--------------------------------------------------------------------------------------------------
wire dec_stalled;
wire alu_stalled;
assign dec_stalled = alu_stalls_dec || bus_stalls_core;
assign alu_stalled = bus_stalls_core || mem_ctrl_stall;
`ifdef SIM
assign o_halt = clock_end || inv_opcode;
`endif
assign mem_ctrl_stall = alu_reg_dump;
assign o_stall = alu_reg_dump;
// Verilator lint_off UNUSED
//wire [N-1:0] unused;
//assign unused = { };
// Verilator lint_on UNUSED
endmodule
`ifdef SIM
`include "def-buscmd.v"
`include "saturn_test_rom.v"
/******************************************************************************
*
* test harness
*
****************************************************************************/
module saturn_tb;
saturn_core saturn (
.i_clk (clk),
.i_reset (reset),
.o_halt (halt),
.o_stall (dbg_stall),
.o_bus_reset (core_bus_reset),
.i_bus_data_in (core_bus_data_in),
.o_bus_data_out (core_bus_data_out),
.o_bus_strobe (core_bus_strobe),
.o_bus_cmd_data (core_bus_cmd_data)
);
saturn_test_rom rom (
.i_stalled (dbg_stall),
.i_reset (core_bus_reset),
.i_bus_data_in (core_bus_data_out),
.o_bus_data_out (core_bus_data_in),
.i_bus_strobe (core_bus_strobe),
.i_bus_cmd_data (core_bus_cmd_data)
);
reg [0:0] clk;
reg [0:0] reset;
wire [0:0] halt;
wire [0:0] dbg_stall;
wire [0:0] core_bus_reset;
wire [3:0] core_bus_data_in;
wire [3:0] core_bus_data_out;
wire [0:0] core_bus_strobe;
wire [0:0] core_bus_cmd_data;
always
#10 clk = (clk === 1'b0);
initial begin
// $monitor ("c %b | r %b | in %h | out %h | str %b | cd %b",
// clk, reset, core_bus_data_in, core_bus_data_out, core_bus_strobe, core_bus_cmd_data);
end
initial begin
$display("starting the simulation");
clk <= 0;
reset <= 1;
@(posedge clk);
@(posedge clk);
@(posedge clk);
reset <= 0;
@(posedge halt);
$finish;
end
endmodule
`endif