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|
`include "util.svh"
module core
#( ADDR_BITS = 12
, DATA_BITS = 12
)
( input bit clk
, input bit reset
);
bit mem_ready;
bit mem_valid;
bit mem_write;
bit [ADDR_BITS-1:0] mem_address;
bit [DATA_BITS-1:0] mem_write_data;
bit mem_read_valid;
bit [DATA_BITS-1:0] mem_read_data;
mem
#( .ADDR_BITS(ADDR_BITS)
, .DATA_BITS(DATA_BITS)
, .INIT_FILE("build/mem/hello.hex")
)
memory
( .clk(clk)
, .reset(reset)
, .ready(mem_ready)
, .valid(mem_valid)
, .address(mem_address)
, .write(mem_write)
, .write_data(mem_write_data)
, .read_valid(mem_read_valid)
, .read_data(mem_read_data)
);
bit rx_ready;
bit rx_valid;
bit [7:0] rx_data;
bit tx_ready;
bit tx_valid;
bit [7:0] tx_data;
jtag_uart
#( .INSTANCE(0)
) uart0
( .clk(clk)
, .reset(reset)
, .rx_ready(rx_ready)
, .rx_valid(rx_valid)
, .rx_data(rx_data)
, .tx_ready(tx_ready)
, .tx_valid(tx_valid)
, .tx_data(tx_data)
);
bit [ADDR_BITS-1:7] page;
bit [ADDR_BITS-1:0] pc;
bit [2:0] opcode;
bit [8:0] operand;
bit [DATA_BITS-1:0] acc;
bit link;
bit i;
bit z;
bit [6:0] wip;
bit [ADDR_BITS-1:0] address;
enum
{ FETCH
, DECODE
, INDIRECT
, INDIRECTED
, PREINC
, AGEN
, EXEC
, MEMWAIT
, HALT
} state;
always_ff @(posedge clk) begin
if (reset) begin
mem_valid = 0;
rx_ready = 0;
tx_valid = 0;
tx_data = 0;
pc = 'o200;
acc = 0;
link = 0;
state = state.first;
end else begin
if (`lag(tx_ready)) tx_valid = 0;
case (state)
FETCH: begin
mem_valid = 1;
mem_address = pc;
mem_write = 0;
if (`lag(mem_ready)) begin
state = DECODE;
page = pc[ADDR_BITS-1:7];
++pc;
end
end
DECODE: begin
mem_valid = 0;
mem_write = 0;
if (`lag(mem_read_valid)) begin
state = FETCH;
{opcode, operand} = `lag(mem_read_data);
{i, z, wip} = operand;
if (z)
address = {page, wip};
else
address = {5'b0, wip};
case (opcode)
'b000, 'b001, 'b010: state = i ? INDIRECT : AGEN;
'b011, 'b100: state = i ? INDIRECT : EXEC;
'b101: begin
if (i) begin
state = INDIRECT;
end else begin
pc = address;
end
end
endcase
end
end
INDIRECT: begin
mem_valid = 1;
mem_write = 0;
mem_address = address;
state = `lag(mem_ready) ? INDIRECTED : INDIRECT;
end
INDIRECTED: begin
if (`lag(mem_ready)) begin
mem_valid = 0;
mem_write = 0;
end
if (`lag(mem_read_valid)) begin
if (address[7:3] == 5'b00001) begin
address = {{(ADDR_BITS - DATA_BITS){1'b0}}, `lag(mem_read_data)};
address += 1;
state = PREINC;
end else begin
address = {{(ADDR_BITS - DATA_BITS){1'b0}}, `lag(mem_read_data)};
case (opcode)
'b000, 'b001, 'b010: state = AGEN;
'b011, 'b100: state = EXEC;
'b101: begin
pc = address;
state = FETCH;
end
endcase
end
end
end
PREINC: begin
mem_valid = 1;
mem_write = 1;
mem_write_data = address[DATA_BITS-1:0];
case (opcode)
'b000, 'b001, 'b010: state = `lag(mem_ready) ? PREINC : AGEN;
'b011, 'b100, 'b101: state = `lag(mem_ready) ? PREINC : EXEC;
endcase
end
AGEN: begin
mem_valid = 1;
case (opcode)
'b000, 'b001, 'b010: mem_write = 0;
endcase
mem_address = address;
state = `lag(mem_ready) ? EXEC : AGEN;
end
EXEC: begin
automatic bit stall = 0;
if (`lag(mem_ready)) begin
mem_valid = 0;
mem_write = 0;
end else if (mem_valid) begin
stall = 1;
end
case (opcode)
'b000, 'b001, 'b010: if (! `lag(mem_read_valid)) stall = 1;
endcase
if (! stall) begin
state = FETCH;
case (opcode)
'b000: acc &= `lag(mem_read_data);
'b001: {link, acc} += {1'b0, `lag(mem_read_data)};
'b010: begin
mem_valid = 1;
mem_address = address;
mem_write = 1;
mem_write_data = `lag(mem_read_data) + 1;
if (mem_write_data == 0) ++pc;
state = MEMWAIT;
end
'b011: begin
mem_valid = 1;
mem_address = address;
mem_write = 1;
mem_write_data = acc;
acc = 0;
state = MEMWAIT;
end
'b100: begin
mem_valid = 1;
mem_address = address;
mem_write = 1;
mem_write_data = pc[DATA_BITS-1:0];
pc = address + 1;
state = MEMWAIT;
end
'b101: pc = address;
endcase
end
end
MEMWAIT: state = `lag(mem_ready) ? FETCH : MEMWAIT;
HALT: $finish;
endcase
end
end
endmodule
|
