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`include "core/psr.sv"
`include "core/uarch.sv"
module arm810
(
input logic clk,
output ptr bus_addr,
output logic bus_start,
bus_write,
input logic bus_ready,
input word bus_data_rd,
output word bus_data_wr
);
logic stall, prefetch_flush;
word insn;
ptr fetch_insn_pc, pc, pc_visible;
core_fetch #(.PREFETCH_ORDER(2)) fetch
(
.flush(explicit_branch | wr_pc),
.target(wr_pc ? wr_value[29:0] : branch_target),
.addr(bus_addr),
.fetched(bus_ready),
.fetch_data(bus_data_rd),
.fetch(bus_start),
.insn_pc(fetch_insn_pc),
.*
);
logic decode_execute, decode_undefined, decode_writeback, decode_branch;
ptr decode_branch_offset;
reg_num decode_rd;
alu_op decode_data_op;
core_decode decode
(
.flags(next_flags),
.execute(decode_execute),
.undefined(decode_undefined),
.writeback(decode_writeback),
.rd(decode_rd),
.branch(decode_branch),
.branch_offset(decode_branch_offset),
.data_op(decode_data_op),
.*
);
reg_num rd;
logic explicit_branch, writeback;
ptr branch_target;
psr_mode reg_mode;
alu_op data_op;
psr_flags flags, next_flags;
core_cycles cycles
(
.branch(explicit_branch),
.*
);
logic wr_pc;
word wr_value, rd_value_a, rd_value_b;
core_regs regs
(
.rd_r_a(0), //TODO
.rd_r_b(0), //TODO
.rd_mode(reg_mode),
.wr_mode(reg_mode),
.wr_r(rd),
.wr_enable(writeback),
.branch(wr_pc),
.*
);
psr_flags alu_flags;
core_alu #(.W(32)) alu
(
.op(data_op),
.a(rd_value_a),
.b(rd_value_b),
.c_in(flags.c),
.q(wr_value),
.nzcv(alu_flags),
.v_valid() //TODO
);
endmodule
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