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//////////////////////////////////////////////////////////////////////////////////
// Engineer: Agner Fog
//
// Create Date: 2020-05-05
// Last modified: 2021-08-02
// Module Name: code_cache
// Project Name: ForwardCom soft core
// Target Devices: Artix 7
// Tool Versions: Vivado v. 2020.1
// License: CERN-OHL-W v. 2 or later
// Description: on-chip code memory or code cache
//
//////////////////////////////////////////////////////////////////////////////////
`include "defines.vh"
// It takes two clock cycles to fetch data from on-chip ram,
// Attempts to fetch in one cycle, using negedge or latch failed for timing reasons
// code memory, 1024*64 bits,
module code_memory (
input clock, // clock
input clock_enable, // clock enable. Used when single-stepping
input read_enable, // read enable when fetching code
input [7:0] write_enable, // write enable for each byte separately when writing code. must be 0x0F or 0xF0 or 0xFF
input [`COMMON_ADDR_WIDTH-1:0] write_addr_in,// Address lines when writing to code memory
input [63:0] write_data_in, // Data lines when writing to code memory
input [`CODE_ADDR_WIDTH-2:0] read_addr_in, // Address for reading from code memory
output reg [`CODE_DATA_WIDTH-1:0] data_out, // Data out
// outputs for debugger:
output reg [31:0] debug_out // debug information
);
// code ram
reg [`CODE_DATA_WIDTH-1:0] ram[0:(2**(`CODE_ADDR_WIDTH-1)-1)];
// (attempt to split this into 32-bit lines failed to implement as ram block)
logic [`COMMON_ADDR_WIDTH-4:0] write_address_hi;
//logic [`DATA_ADDR_WIDTH-4:0] write_address_hi;
//logic [2:0] address_lo; // not used
logic write_address_valid;
always_comb begin
// write_address_hi = write_addr_in[`COMMON_ADDR_WIDTH-1:3] - {1'b1,`CODE_ADDR_START'b0}; // index to 64-bit lines
write_address_hi = write_addr_in[`COMMON_ADDR_WIDTH-1:3] - {1'b1,{(`CODE_ADDR_START-3){1'b0}}}; // index to 64-bit lines
write_address_valid = write_addr_in[`COMMON_ADDR_WIDTH-1:`CODE_ADDR_START] != 0; // code address space
end
/*
Calculation of loader address:
Code memory starts at address 2**CODE_ADDR_START = 32kB = 0x8000
Code memory size = 2**(CODE_ADDR_WIDTH+2) = 64kB = 0x10000
Code memory end = code memory start + code memory size = 0x18000
Max loader size = 2kB = 0x800 bytes
Loader start address = code memory end - max loader size
Each line in code ram is CODE_DATA_WIDTH = 64 bits = 8 bytes
Loader start line = (code memory size - max loader size) / line size
*/
parameter max_loader_size = `MAX_LOADER_SIZE << 2; // loader size in bytes
parameter code_memory_start = 2**`CODE_ADDR_START;
parameter code_memory_size = 2**(`CODE_ADDR_WIDTH+2);
parameter code_memory_end = code_memory_start + code_memory_size;
parameter loader_start_address = code_memory_end - max_loader_size;
parameter loader_start_relative = code_memory_size - max_loader_size;
parameter loader_start_line = loader_start_relative / (`CODE_DATA_WIDTH >> 3);
generate if (`LOADER_FILE != "")
initial begin
// insert loader code
$readmemh(`LOADER_FILE, ram, loader_start_line);
end
endgenerate
// code ram read and write process
always_ff @(posedge clock) if (clock_enable) begin
// Write data to code RAM when loading program code
if (write_address_valid) begin // write address is in code section
if (write_enable[0]) begin
ram[write_address_hi][31:0] <= write_data_in[31:0];
end
if (write_enable[4]) begin
ram[write_address_hi][63:32] <= write_data_in[63:32];
end
end
// Read from code ram when executing
if (read_enable) begin
data_out <= ram[read_addr_in];
end
// Output for debugger
debug_out[23:0] <= write_address_hi;
debug_out[28] <= write_address_valid;
end
endmodule
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