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compare: bee:3a2c67561303ff651fd091153d6f2086e4d85dd4
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bee:trunk

2 commits
28e4032687 ... 3a2c675613

Author SHA1 Message Date
Bee 3a2c675613 unger 2023-11-15 22:21:06 -05:00
Bee cae3afbc55 undid whatever that was 2023-11-15 21:49:51 -05:00
3 changed files with 45 additions and 105 deletions
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64
src/beepo.v
View file

@ -6,7 +6,6 @@ module Beepo #(
) (
input i_clk,
input i_button1,
output o_uart_tx,
output [6:0] o_segments_drive,
output [3:0] o_displays_neg
);
@ -37,11 +36,6 @@ module Beepo #(
reg r_fetching = 0; // counter for waiting before reading from memory
reg [63:0] r_tick = 0;
// UART tx
// reg [7:0] r_tx_data = 0;
// reg r_tx_reset_n = 1;
// wire w_tx_ready;
// Registers
reg [63:0] r_pc = PC_START; // program counter
reg [63:0] r_pc_latch = PC_START; // address input to ROM
@ -63,13 +57,12 @@ module Beepo #(
genvar i;
generate
for (i = 1; i <= NUM_REGS; i = i + 1) begin
for (i = 1; i < NUM_REGS-1; i = i + 1) begin
initial r_registers[i] <= 0;
end
endgenerate
always @(posedge i_clk) r_tick <= r_tick + 1;
// always @(r_registers[1]) r_tx_data <= r_registers[1];
always @(posedge i_clk) begin
if (r_fetching) r_fetching <= r_fetching + 1;
@ -85,8 +78,23 @@ module Beepo #(
r_arg_index <= 0;
r_arg_bit <= 0;
// instructions.v
`get_args;
case (w_mem_fetch)
`TX: r_arg_types_packed = `TX_ARGS;
`NOP: r_arg_types_packed = `NOP_ARGS;
`ADD8: r_arg_types_packed = `ADD8_ARGS;
`ADD16: r_arg_types_packed = `ADD16_ARGS;
`ADD32: r_arg_types_packed = `ADD32_ARGS;
`ADD64: r_arg_types_packed = `ADD64_ARGS;
`ADDI8: r_arg_types_packed = `ADDI8_ARGS;
`ADDI16: r_arg_types_packed = `ADDI16_ARGS;
`ADDI32: r_arg_types_packed = `ADDI32_ARGS;
`ADDI64: r_arg_types_packed = `ADDI64_ARGS;
`LI8: r_arg_types_packed = `LI8_ARGS;
`LI16: r_arg_types_packed = `LI16_ARGS;
`LI32: r_arg_types_packed = `LI32_ARGS;
`LI64: r_arg_types_packed = `LI64_ARGS;
default: r_arg_types_packed = {ARG_N, ARG_N, ARG_N, ARG_N};
endcase
if (r_arg_types_packed[15:12] != ARG_N) begin
r_state <= FETCHA;
@ -157,18 +165,26 @@ module Beepo #(
EXEC: begin
r_state <= FETCHI;
// instructions.v
`exec;
// r_tx_send_ctrl[0] <= ~r_tx_send_ctrl[0];
case (r_instr)
`TX: r_state <= DONE;
`NOP: ;
`ADD8: set_register(r_arg_regs[0], r_registers[r_arg_regs[1]] + r_registers[r_arg_regs[2]][7:0]);
`ADD16: set_register(r_arg_regs[0], r_registers[r_arg_regs[1]] + r_registers[r_arg_regs[2]][15:0]);
`ADD32: set_register(r_arg_regs[0], r_registers[r_arg_regs[1]] + r_registers[r_arg_regs[2]][31:0]);
`ADD64: set_register(r_arg_regs[0], r_registers[r_arg_regs[1]] + r_registers[r_arg_regs[2]][63:0]);
`ADDI8: set_register(r_arg_regs[0], r_registers[r_arg_regs[1]] + r_arg_imm[7:0]);
`ADDI16: set_register(r_arg_regs[0], r_registers[r_arg_regs[1]] + r_arg_imm[15:0]);
`ADDI32: set_register(r_arg_regs[0], r_registers[r_arg_regs[1]] + r_arg_imm[31:0]);
`ADDI64: set_register(r_arg_regs[0], r_registers[r_arg_regs[1]] + r_arg_imm[63:0]);
`LI8: set_register(r_arg_regs[0], r_arg_imm);
`LI16: set_register(r_arg_regs[0], r_arg_imm);
`LI32: set_register(r_arg_regs[0], r_arg_imm);
`LI64: set_register(r_arg_regs[0], r_arg_imm);
endcase
end
endcase
end
// always @(posedge i_clk) begin
// if (w_tx_send && w_tx_ready) r_tx_send_ctrl[1] <= r_tx_send_ctrl[0];
// end
task automatic set_register(
input [7:0] being_set,
input [63:0] setting_to
@ -176,18 +192,6 @@ module Beepo #(
if (being_set != 0) r_registers[being_set] = setting_to;
endtask
// uart_tx #(
// .CLK_FRE(FREQ / 1_000_000),
// .BAUD_RATE(UART_BAUD)
// ) tx (
// .clk(i_clk),
// .rst_n(1),
// .tx_data(r_tx_data),
// .tx_data_valid(w_tx_send),
// .tx_data_ready(w_tx_ready),
// .tx_pin(o_uart_tx)
// );
Multi7 display (
.i_clk(i_clk),
.i_hex({r_registers[1][15:0]}),

65
src/instructions.v
View file

@ -1,73 +1,22 @@
// Based on https://git.ablecorp.us/AbleOS/holey-bytes/src/branch/trunk/spec.md
`define get_args \
case (w_mem_fetch) \
`UN: r_arg_types_packed = `UN_ARGS; \
`TX: r_arg_types_packed = `TX_ARGS; \
`NOP: r_arg_types_packed = `NOP_ARGS; \
`ADD8: r_arg_types_packed = `ADD8_ARGS; \
`ADD16: r_arg_types_packed = `ADD16_ARGS; \
`ADD32: r_arg_types_packed = `ADD32_ARGS; \
`ADD64: r_arg_types_packed = `ADD64_ARGS; \
\
`ADDI64: r_arg_types_packed = `ADDI64_ARGS; \
`ADDI8: r_arg_types_packed = `ADDI8_ARGS; \
`ADDI16: r_arg_types_packed = `ADDI16_ARGS; \
`ADDI32: r_arg_types_packed = `ADDI32_ARGS; \
\
`LI8: r_arg_types_packed = `LI8_ARGS; \
`LI16: r_arg_types_packed = `LI16_ARGS; \
`LI32: r_arg_types_packed = `LI32_ARGS; \
`LI64: r_arg_types_packed = `LI64_ARGS; \
default: r_arg_types_packed = {ARG_N, ARG_N, ARG_N, ARG_N}; \
endcase
`define exec \
case (r_instr) \
`UN: `UN_EXEC; \
`TX: `TX_EXEC; \
`NOP: `NOP_EXEC; \
\
`ADD8: `ADD8_EXEC; \
`ADD16: `ADD16_EXEC; \
`ADD32: `ADD32_EXEC; \
`ADD64: `ADD64_EXEC; \
\
`ADDI8: `ADDI8_EXEC; \
`ADDI16: `ADDI16_EXEC; \
`ADDI32: `ADDI32_EXEC; \
`ADDI64: `ADDI64_EXEC; \
\
`LI8: `LI8_EXEC; \
`LI16: `LI16_EXEC; \
`LI32: `LI32_EXEC; \
`LI64: `LI64_EXEC; \
endcase
// Program execution control
`define UN 'h00
`define UN_ARGS {ARG_N, ARG_N, ARG_N, ARG_N}
`define UN_EXEC // TODO
`define TX 'h01
`define TX_ARGS {ARG_N, ARG_N, ARG_N, ARG_N}
`define TX_EXEC r_state <= DONE
`define NOP 'h02
`define NOP_ARGS {ARG_N, ARG_N, ARG_N, ARG_N}
`define NOP_EXEC
// Register-register addition
// Binary register-register operations
`define ADD8 'h03
`define ADD8_ARGS {ARG_R, ARG_R, ARG_R, ARG_N}
`define ADD8_EXEC set_register(r_arg_regs[0], r_registers[r_arg_regs[1]] + r_registers[r_arg_regs[2]][0+:8])
`define ADD16 'h04
`define ADD16_ARGS {ARG_R, ARG_R, ARG_R, ARG_N}
`define ADD16_EXEC set_register(r_arg_regs[0], r_registers[r_arg_regs[1]] + r_registers[r_arg_regs[2]][0+:16])
`define ADD32 'h05
`define ADD32_ARGS {ARG_R, ARG_R, ARG_R, ARG_N}
`define ADD32_EXEC set_register(r_arg_regs[0], r_registers[r_arg_regs[1]] + r_registers[r_arg_regs[2]][0+:32])
`define ADD64 'h06
`define ADD64_ARGS {ARG_R, ARG_R, ARG_R, ARG_N}
`define ADD64_EXEC set_register(r_arg_regs[0], r_registers[r_arg_regs[1]] + r_registers[r_arg_regs[2]][0+:64])
// Merged divide-remainder
`define DIRU8 'h20
@ -76,19 +25,15 @@
`define NEG 'h28
`define NOT 'h29
// Register-immediate addition
// Binary register-immediate operations
`define ADDI8 'h2D
`define ADDI8_ARGS {ARG_R, ARG_R, ARG_B, ARG_N}
`define ADDI8_EXEC set_register(r_arg_regs[0], r_registers[r_arg_regs[1]] + r_arg_imm[0+:8])
`define ADDI16 'h2E
`define ADDI16_ARGS {ARG_R, ARG_R, ARG_H, ARG_N}
`define ADDI16_EXEC set_register(r_arg_regs[0], r_registers[r_arg_regs[1]] + r_arg_imm[0+:16])
`define ADDI32 'h2F
`define ADDI32_ARGS {ARG_R, ARG_R, ARG_W, ARG_N}
`define ADDI32_EXEC set_register(r_arg_regs[0], r_registers[r_arg_regs[1]] + r_arg_imm[0+:32])
`define ADDI64 'h30
`define ADDI64_ARGS {ARG_R, ARG_R, ARG_D, ARG_N}
`define ADDI64_EXEC set_register(r_arg_regs[0], r_registers[r_arg_regs[1]] + r_arg_imm[0+:64])
// Register-immediate bitshifts
`define SLUI8 'h38
@ -97,20 +42,14 @@
`define CP 'h46
// Load immediate
`define LI set_register(r_arg_regs[0], r_arg_imm)
`define LI8 'h48
`define LI8_ARGS {ARG_R, ARG_B, ARG_N, ARG_N}
`define LI8_EXEC `LI
`define LI16 'h49
`define LI16_ARGS {ARG_R, ARG_H, ARG_N, ARG_N}
`define LI16_EXEC `LI
`define LI32 'h4A
`define LI32_ARGS {ARG_R, ARG_W, ARG_N, ARG_N}
`define LI32_EXEC `LI
`define LI64 'h4B
`define LI64_ARGS {ARG_R, ARG_D, ARG_N, ARG_N}
`define LI64_EXEC `LI
// Conditional jump
`define JEQ 'h56

21
tests/adding/adding.v
View file

@ -7,19 +7,16 @@
$finish; \
end
module tb_adding(
output o_uart_tx
);
module tb_adding();
reg clk = 0;
reg clk = 0;
Beepo #(
.FREQ(1),
.UART_BAUD(1_000_000)
) bep (
.i_clk(clk)
);
Beepo #(
.FREQ(1),
.UART_BAUD(1_000_000)
) bep (
.i_clk(clk),
.o_uart_tx(o_uart_tx)
);
localparam CLK_PERIOD = 1.0;
always #(CLK_PERIOD/2) clk=~clk;
@ -34,7 +31,7 @@ Beepo #(
);
end
// should probably do more tests than just the end
// should probably do more granular tests
initial #10000 begin
`assert(bep.r_registers[1], 64'h2020202040406090);
$finish;