LF-Building-a-RISC-V-CPU-Core/lib/risc-v_shell_lib.tlv

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\m4_TLV_version 1d: tl-x.org
\SV
m4_include_lib(['https://raw.githubusercontent.com/stevehoover/warp-v_includes/1d1023ccf8e7b0a8cf8e8fc4f0a823ebb61008e3/risc-v_defs.tlv'])
// v====================== lib/risc-v_shell_lib.tlv =======================v
// Configuration for WARP-V definitions.
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m4+definitions(['
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// Define full test program.
// Provide a non-empty argument if this is instantiated within a \TLV region (vs. \SV).
m4_define(['m4_test_prog'], ['m4_hide(['
// /=======================\
// | Test each instruction |
// \=======================/
//
// Some constant values to use as operands.
m4_asm(ADDI, x1, x0, 10101) // An operand value of 21.
m4_asm(ADDI, x2, x0, 111) // An operand value of 7.
m4_asm(ADDI, x3, x0, 111111111100) // An operand value of -4.
// Execute one of each instruction, XORing subtracting (via ADDI) the expected value.
// ANDI:
m4_asm(ANDI, x5, x1, 1011100)
m4_asm(XORI, x5, x5, 10101)
// ORI:
m4_asm(ORI, x6, x1, 1011100)
m4_asm(XORI, x6, x6, 1011100)
// ADDI:
m4_asm(ADDI, x7, x1, 111)
m4_asm(XORI, x7, x7, 11101)
// ADDI:
m4_asm(SLLI, x8, x1, 110)
m4_asm(XORI, x8, x8, 10101000001)
// SLLI:
m4_asm(SRLI, x9, x1, 10)
m4_asm(XORI, x9, x9, 100)
// AND:
m4_asm(AND, r10, x1, x2)
m4_asm(XORI, x10, x10, 100)
// OR:
m4_asm(OR, x11, x1, x2)
m4_asm(XORI, x11, x11, 10110)
// XOR:
m4_asm(XOR, x12, x1, x2)
m4_asm(XORI, x12, x12, 10011)
// ADD:
m4_asm(ADD, x13, x1, x2)
m4_asm(XORI, x13, x13, 11101)
// SUB:
m4_asm(SUB, x14, x1, x2)
m4_asm(XORI, x14, x14, 1111)
// SLL:
m4_asm(SLL, x15, x2, x2)
m4_asm(XORI, x15, x15, 1110000001)
// SRL:
m4_asm(SRL, x16, x1, x2)
m4_asm(XORI, x16, x16, 1)
// SLTU:
m4_asm(SLTU, x17, x2, x1)
m4_asm(XORI, x17, x17, 0)
// SLTIU:
m4_asm(SLTIU, x18, x2, 10101)
m4_asm(XORI, x18, x18, 0)
// LUI:
m4_asm(LUI, x19, 0)
m4_asm(XORI, x19, x19, 1)
// SRAI:
m4_asm(SRAI, x20, x3, 1)
m4_asm(XORI, x20, x20, 111111111111)
// SLT:
m4_asm(SLT, x21, x3, x1)
m4_asm(XORI, x21, x21, 0)
// SLTI:
m4_asm(SLTI, x22, x3, 1)
m4_asm(XORI, x22, x22, 0)
// SRA:
m4_asm(SRA, x23, x1, x2)
m4_asm(XORI, x23, x23, 1)
// AUIPC:
m4_asm(AUIPC, x4, 100)
m4_asm(SRLI, x24, x4, 111)
m4_asm(XORI, x24, x24, 10000000)
// JAL:
m4_asm(JAL, x25, 10) // x25 = PC of next instr
m4_asm(AUIPC, x4, 0) // x4 = PC
m4_asm(XOR, x25, x25, x4) # AUIPC and JAR results are the same.
m4_asm(XORI, x25, x25, 1)
// JALR:
m4_asm(JALR, x26, x4, 10000)
m4_asm(SUB, x26, x26, x4) // JALR PC+4 - AUIPC PC
m4_asm(ADDI, x26, x26, 111111110001) // - 4 instrs, + 1
// SW & LW:
m4_asm(SW, x2, x1, 1)
m4_asm(LW, x27, x2, 1)
m4_asm(XORI, x27, x27, 10100)
// Write 1 to remaining registers prior to x30 just to avoid concern.
m4_asm(ADDI, x28, x0, 1)
m4_asm(ADDI, x29, x0, 1)
// Terminate with success condition (regardless of correctness of register values):
m4_asm(ADDI, x30, x0, 1)
m4_asm(JAL, x0, 0) // Done. Jump to itself (infinite loop). (Up to 20-bit signed immediate plus implicit 0 bit (unlike JALR) provides byte address; last immediate bit should also be 0)
m4_define(['M4_VIZ_BASE'], 16) // (Note that immediate values are shown in disassembled instructions in binary and signed decimal in decoder regardless of this setting.)
m4_define(['M4_MAX_CYC'], 70)
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'])m4_ifelse(['$1'], [''], ['m4_asm_end()'], ['m4_asm_end_tlv()'])'])
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m4_define_vector(['M4_WORD'], 32)
m4_define(['M4_EXT_I'], 1)
m4_define(['M4_NUM_INSTRS'], 0)
m4_echo(m4tlv_riscv_gen__body())
// A single-line M4 macro instantiated at the end of the asm code.
// It actually produces a definition of an SV macro that instantiates the IMem conaining the program (that can be parsed without \SV_plus).
m4_define(['m4_asm_end'], ['`define READONLY_MEM(ADDR, DATA) logic [31:0] instrs [0:M4_NUM_INSTRS-1]; assign DATA = instrs[ADDR[$clog2($size(instrs)) + 1 : 2]]; assign instrs = '{m4_instr0['']m4_forloop(['m4_instr_ind'], 1, M4_NUM_INSTRS, [', m4_echo(['m4_instr']m4_instr_ind)'])};'])
m4_define(['m4_asm_end_tlv'], ['`define READONLY_MEM(ADDR, DATA) logic [31:0] instrs [0:M4_NUM_INSTRS-1]; assign DATA \= instrs[ADDR[\$clog2(\$size(instrs)) + 1 : 2]]; assign instrs \= '{m4_instr0['']m4_forloop(['m4_instr_ind'], 1, M4_NUM_INSTRS, [', m4_echo(['m4_instr']m4_instr_ind)'])};'])
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'])
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\TLV test_prog()
m4_test_prog(['TLV'])
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// Register File
\TLV rf(_entries, _width, $_reset, $_port1_en, $_port1_index, $_port1_data, $_port2_en, $_port2_index, $_port2_data, $_port3_en, $_port3_index, $_port3_data)
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$rf1_wr_en = m4_argn(4, $@);
$rf1_wr_index[\$clog2(_entries)-1:0] = m4_argn(5, $@);
$rf1_wr_data[_width-1:0] = m4_argn(6, $@);
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$rf1_rd_en1 = m4_argn(7, $@);
$rf1_rd_index1[\$clog2(_entries)-1:0] = m4_argn(8, $@);
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$rf1_rd_en2 = m4_argn(10, $@);
$rf1_rd_index2[\$clog2(_entries)-1:0] = m4_argn(11, $@);
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/xreg[m4_eval(_entries-1):0]
$wr = /top$rf1_wr_en && (/top$rf1_wr_index == #xreg);
<<1$value[_width-1:0] = /top$_reset ? #xreg :
$wr ? /top$rf1_wr_data :
$RETAIN;
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$_port2_data[_width-1:0] = $rf1_rd_en1 ? /xreg[$rf1_rd_index1]$value : 'X;
$_port3_data[_width-1:0] = $rf1_rd_en2 ? /xreg[$rf1_rd_index2]$value : 'X;
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/xreg[m4_eval(_entries-1):0]
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\viz_js
box: {width: 120, height: 18, strokeWidth: 0},
render() {
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siggen = (name) => this.svSigRef(`${name}`) == null ? this.svSigRef(`sticky_zero`) : this.svSigRef(`${name}`);
let rf_rd_en1 = siggen(`L0_rf1_rd_en1_a0`)
let rf_rd_index1 = siggen(`L0_rf1_rd_index1_a0`)
let rf_rd_en2 = siggen(`L0_rf1_rd_en2_a0`)
let rf_rd_index2 = siggen(`L0_rf1_rd_index2_a0`)
let rf_wr_index = siggen(`rf1_wr_index_a0`)
let wr = siggen(`L1_Xreg[${this.getIndex()}].L1_wr_a0`)
let value = siggen(`Xreg_value_a0(${this.getIndex()})`)
let rd = (rf_rd_en1.asBool(false) && rf_rd_index1.asInt() == this.getIndex()) ||
(rf_rd_en2.asBool(false) && rf_rd_index2.asInt() == this.getIndex())
let mod = wr.asBool(false);
let reg = parseInt(this.getIndex())
let regIdent = reg.toString().padEnd(2, " ")
let newValStr = (regIdent + ": ").padEnd(14, " ")
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let reg_str = new fabric.Text((regIdent + ": " + value.asInt(NaN).toString(M4_VIZ_BASE)).padEnd(14, " "), {
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top: 0,
left: 0,
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fontSize: 14,
fill: mod ? "blue" : "black",
fontWeight: mod ? 800 : 400,
fontFamily: "monospace",
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textBackgroundColor: rd ? "#b0ffff" : mod ? "#f0f0f0" : "white"
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})
if (mod) {
setTimeout(() => {
reg_str.set({text: newValStr, textBackgroundColor: "#d0e8ff", dirty: true})
this.global.canvas.renderAll()
}, 1500)
}
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return [reg_str]
},
where: {left: 316, top: -40}
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// Data Memory
\TLV dmem(_entries, _width, $_reset, $_addr, $_port1_en, $_port1_data, $_port2_en, $_port2_data)
// Allow expressions for most inputs, so define input signals.
$dmem1_wr_en = $_port1_en;
$dmem1_addr[\$clog2(_entries)-1:0] = $_addr;
$dmem1_wr_data[_width-1:0] = $_port1_data;
$dmem1_rd_en = $_port2_en;
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/dmem[m4_eval(_entries-1):0]
$wr = /top$dmem1_wr_en && (/top$dmem1_addr == #dmem);
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<<1$value[_width-1:0] = /top$_reset ? 0 :
$wr ? /top$dmem1_wr_data :
$RETAIN;
$_port2_data[_width-1:0] = $dmem1_rd_en ? /dmem[$dmem1_addr]$value : 'X;
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/dmem[m4_eval(_entries-1):0]
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\viz_js
box: {width: 120, height: 18, strokeWidth: 0},
render() {
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siggen = (name) => this.svSigRef(`${name}`) == null ? this.svSigRef(`sticky_zero`) : this.svSigRef(`${name}`);
//
let dmem_rd_en = siggen(`L0_dmem1_rd_en_a0`);
let dmem_addr = siggen(`L0_dmem1_addr_a0`);
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//
let wr = siggen(`L1_Dmem[${this.getIndex()}].L1_wr_a0`);
let value = siggen(`Dmem_value_a0(${this.getIndex()})`);
//
let rd = dmem_rd_en.asBool() && dmem_addr.asInt() == this.getIndex();
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let mod = wr.asBool(false);
let reg = parseInt(this.getIndex());
let regIdent = reg.toString().padEnd(2, " ");
let newValStr = (regIdent + ": ").padEnd(14, " ");
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let dmem_str = new fabric.Text((regIdent + ": " + value.asInt(NaN).toString(M4_VIZ_BASE)).padEnd(14, " "), {
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top: 0,
left: 0,
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fontSize: 14,
fill: mod ? "blue" : "black",
fontWeight: mod ? 800 : 400,
fontFamily: "monospace",
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textBackgroundColor: rd ? "#b0ffff" : mod ? "#d0e8ff" : "white"
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})
if (mod) {
setTimeout(() => {
dmem_str.set({text: newValStr, dirty: true})
this.global.canvas.renderAll()
}, 1500)
}
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return [dmem_str]
},
where: {left: 480, top: -40}
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\TLV cpu_viz()
// String representations of the instructions for debug.
\SV_plus
// A default signal for ones that are not found.
logic sticky_zero;
assign sticky_zero = 0;
// Instruction strings from the assembler.
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logic [40*8-1:0] instr_strs [0:M4_NUM_INSTRS];
assign instr_strs = '{m4_asm_mem_expr "END "};
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\viz_js
m4_define(['M4_IMEM_TOP'], ['m4_ifelse(m4_eval(M4_NUM_INSTRS > 16), 0, 0, m4_eval(0 - (M4_NUM_INSTRS - 16) * 18))'])
box: {strokeWidth: 0},
init() {
let imem_box = new fabric.Rect({
top: M4_IMEM_TOP - 50,
left: -700,
fill: "#208028",
width: 665,
height: 76 + 18 * M4_NUM_INSTRS,
stroke: "black",
visible: false
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})
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let decode_box = new fabric.Rect({
top: -25,
left: -15,
fill: "#f8f0e8",
width: 280,
height: 215,
stroke: "#ff8060",
visible: false
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})
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let rf_box = new fabric.Rect({
top: -90,
left: 306,
fill: "#2028b0",
width: 145,
height: 650,
stroke: "black",
visible: false
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})
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let dmem_box = new fabric.Rect({
top: -90,
left: 470,
fill: "#208028",
width: 145,
height: 650,
stroke: "black",
visible: false
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})
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let imem_header = new fabric.Text("🗃️ IMem", {
top: M4_IMEM_TOP - 35,
left: -460,
fontSize: 18,
fontWeight: 800,
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fontFamily: "monospace",
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fill: "white",
visible: false
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})
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let decode_header = new fabric.Text("⚙️ Instr. Decode", {
top: -4,
left: 20,
fill: "maroon",
fontSize: 18,
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fontWeight: 800,
fontFamily: "monospace",
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visible: false
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})
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let rf_header = new fabric.Text("📂 RF", {
top: -75,
left: 316,
fontSize: 18,
fontWeight: 800,
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fontFamily: "monospace",
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fill: "white",
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visible: false
})
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let dmem_header = new fabric.Text("🗃️ DMem", {
top: -75,
left: 480,
fontSize: 18,
fontWeight: 800,
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fontFamily: "monospace",
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fill: "white",
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visible: false
})
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let passed = new fabric.Text("", {
top: 340,
left: -30,
fontSize: 46,
fontWeight: 800
})
this.missing_col1 = new fabric.Text("", {
top: 420,
left: -480,
fontSize: 16,
fontWeight: 500,
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fontFamily: "monospace",
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fill: "purple"
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})
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this.missing_col2 = new fabric.Text("", {
top: 420,
left: -300,
fontSize: 16,
fontWeight: 500,
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fontFamily: "monospace",
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fill: "purple"
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})
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let missing_sigs = new fabric.Group(
[new fabric.Text("🚨 To Be Implemented:", {
top: 350,
left: -466,
fontSize: 18,
fontWeight: 800,
fill: "red",
fontFamily: "monospace"
}),
new fabric.Rect({
top: 400,
left: -500,
fill: "#ffffe0",
width: 400,
height: 300,
stroke: "black"
}),
this.missing_col1,
this.missing_col2,
],
{visible: false}
)
return {imem_box, decode_box, rf_box, dmem_box, imem_header, decode_header, rf_header, dmem_header, passed, missing_sigs}
},
render() {
// Strings (2 columns) of missing signals.
var missing_list = ["", ""]
var missing_cnt = 0
let sticky_zero = this.svSigRef(`sticky_zero`); // A default zero-valued signal.
// Attempt to look up a signal, using sticky_zero as default and updating missing_list if expected.
siggen = (name, full_name, expected = true) => {
var sig = this.svSigRef(full_name ? full_name : `L0_${name}_a0`)
if (sig == null) {
sig = sticky_zero;
if (expected) {
missing_list[missing_cnt > 11 ? 1 : 0] += `◾ $${name} \n`;
missing_cnt++
}
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}
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return sig
}
// Look up signal, and it's ok if it doesn't exist.
siggen_rf_dmem = (name, scope) => {
return siggen(name, scope, false)
}
// Determine which is_xxx signal is asserted.
siggen_mnemonic = () => {
let instrs = ["lui", "auipc", "jal", "jalr", "beq", "bne", "blt", "bge", "bltu", "bgeu", "lb", "lh", "lw", "lbu", "lhu", "sb", "sh", "sw", "addi", "slti", "sltiu", "xori", "ori", "andi", "slli", "srli", "srai", "add", "sub", "sll", "slt", "sltu", "xor", "srl", "sra", "or", "and", "csrrw", "csrrs", "csrrc", "csrrwi", "csrrsi", "csrrci", "load", "s_instr"];
for(i=0;i<instrs.length;i++) {
var sig = this.svSigRef(`L0_is_${instrs[i]}_a0`)
if(sig != null && sig.asBool()) {
return instrs[i].toUpperCase()
}
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}
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return "ILLEGAL"
}
let pc = siggen("pc")
let instr = siggen("instr")
let types = {I: siggen("is_i_instr"),
R: siggen("is_r_instr"),
S: siggen("is_s_instr"),
B: siggen("is_b_instr"),
J: siggen("is_j_instr"),
U: siggen("is_u_instr"),
}
let rd_valid = siggen("rd_valid")
let rd = siggen("rd")
let result = siggen("result")
let src1_value = siggen("src1_value")
let src2_value = siggen("src2_value")
let imm = siggen("imm")
let imm_valid = siggen("imm_valid")
let rs1 = siggen("rs1")
let rs2 = siggen("rs2")
let rs1_valid = siggen("rs1_valid")
let rs2_valid = siggen("rs2_valid")
let ld_data = siggen("ld_data")
let mnemonic = siggen_mnemonic()
let passed = siggen("passed_cond", false, false)
let rf_rd_en1 = siggen_rf_dmem("rf1_rd_en1")
let rf_rd_index1 = siggen_rf_dmem("rf1_rd_index1")
let rf_rd_en2 = siggen_rf_dmem("rf1_rd_en2")
let rf_rd_index2 = siggen_rf_dmem("rf1_rd_index2")
let rf_wr_en = siggen_rf_dmem("rf1_wr_en")
let rf_wr_index = siggen_rf_dmem("rf1_wr_index")
let rf_wr_data = siggen_rf_dmem("rf1_wr_data")
let dmem_rd_en = siggen_rf_dmem("dmem1_rd_en")
let dmem_wr_en = siggen_rf_dmem("dmem1_wr_en")
let dmem_addr = siggen_rf_dmem("dmem1_addr")
if (instr != sticky_zero) {
this.getObjects().imem_box.set({visible: true})
this.getObjects().imem_header.set({visible: true})
this.getObjects().decode_box.set({visible: true})
this.getObjects().decode_header.set({visible: true})
}
let pcPointer = new fabric.Text("👉", {
top: M4_IMEM_TOP + 18 * (pc.asInt() / 4),
left: -375,
fill: "blue",
fontSize: 14,
fontFamily: "monospace",
visible: pc != sticky_zero
})
let pc_arrow = new fabric.Line([-57, M4_IMEM_TOP + 18 * (pc.asInt() / 4) + 6, 6, 35], {
stroke: "#b0c8df",
strokeWidth: 2,
visible: instr != sticky_zero
})
// Display instruction type(s)
let type_texts = []
for (const [type, sig] of Object.entries(types)) {
if (sig.asBool()) {
type_texts.push(
new fabric.Text(`(${type})`, {
top: 60,
left: 10,
fill: "blue",
fontSize: 20,
fontFamily: "monospace"
})
)
}
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}
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let rs1_arrow = new fabric.Line([330, 18 * rf_rd_index1.asInt() + 6 - 40, 190, 75 + 18 * 2], {
stroke: "#b0c8df",
strokeWidth: 2,
visible: rf_rd_en1.asBool()
})
let rs2_arrow = new fabric.Line([330, 18 * rf_rd_index2.asInt() + 6 - 40, 190, 75 + 18 * 3], {
stroke: "#b0c8df",
strokeWidth: 2,
visible: rf_rd_en2.asBool()
})
let rd_arrow = new fabric.Line([330, 18 * rf_wr_index.asInt() + 6 - 40, 168, 75 + 18 * 0], {
stroke: "#b0b0df",
strokeWidth: 3,
visible: rf_wr_en.asBool()
})
let ld_arrow = new fabric.Line([490, 18 * dmem_addr.asInt() + 6 - 40, 168, 75 + 18 * 0], {
stroke: "#b0c8df",
strokeWidth: 2,
visible: dmem_rd_en.asBool()
})
let st_arrow = new fabric.Line([490, 18 * dmem_addr.asInt() + 6 - 40, 190, 75 + 18 * 3], {
stroke: "#b0b0df",
strokeWidth: 3,
visible: dmem_wr_en.asBool()
})
if (rf_rd_en1 != sticky_zero) {
this.getObjects().rf_box.set({visible: true})
this.getObjects().rf_header.set({visible: true})
}
if (dmem_rd_en != sticky_zero) {
this.getObjects().dmem_box.set({visible: true})
this.getObjects().dmem_header.set({visible: true})
}
// Instruction with values
let regStr = (valid, regNum, regValue) => {
return valid ? `x${regNum}` : `xX` // valid ? `x${regNum} (${regValue})` : `xX`
}
let immStr = (valid, immValue) => {
immValue = parseInt(immValue,2) + 2*(immValue[0] << 31)
return valid ? `i[${immValue}]` : ``;
}
let srcStr = ($src, $valid, $reg, $value) => {
return $valid.asBool(false)
? `\n ${regStr(true, $reg.asInt(NaN), $value.asInt(NaN))}`
: "";
}
let str = `${regStr(rd_valid.asBool(false), rd.asInt(NaN), result.asInt(NaN))}\n` +
` = ${mnemonic}${srcStr(1, rs1_valid, rs1, src1_value)}${srcStr(2, rs2_valid, rs2, src2_value)}\n` +
` ${immStr(imm_valid.asBool(false), imm.asBinaryStr("0"))}`;
let instrWithValues = new fabric.Text(str, {
top: 70,
left: 65,
fill: "blue",
fontSize: 14,
fontFamily: "monospace",
visible: instr != sticky_zero
})
// Animate fetch (and provide onChange behavior for other animation).
let fetch_instr_str = siggen(`instr_strs(${pc.asInt() >> 2})`, `instr_strs(${pc.asInt() >> 2})`).asString("(?) UNKNOWN fetch instr").substr(4)
let fetch_instr_viz = new fabric.Text(fetch_instr_str, {
top: M4_IMEM_TOP + 18 * (pc.asInt() >> 2),
left: -352 + 8 * 4,
fill: "black",
fontSize: 14,
fontFamily: "monospace",
visible: instr != sticky_zero
})
fetch_instr_viz.animate({top: 32, left: 10}, {
onChange: this.global.canvas.renderAll.bind(this.global.canvas),
duration: 500
})
// Animate RF value read/write.
let src1_value_viz = new fabric.Text(src1_value.asInt(0).toString(M4_VIZ_BASE), {
left: 316 + 8 * 4,
top: 18 * rs1.asInt(0) - 40,
fill: "blue",
fontSize: 14,
fontFamily: "monospace",
fontWeight: 800,
visible: (src1_value != sticky_zero) && rs1_valid.asBool(false)
})
setTimeout(() => {src1_value_viz.animate({left: 166, top: 70 + 18 * 2}, {
onChange: this.global.canvas.renderAll.bind(this.global.canvas),
duration: 500
})}, 500)
let src2_value_viz = new fabric.Text(src2_value.asInt(0).toString(M4_VIZ_BASE), {
left: 316 + 8 * 4,
top: 18 * rs2.asInt(0) - 40,
fill: "blue",
fontSize: 14,
fontFamily: "monospace",
fontWeight: 800,
visible: (src2_value != sticky_zero) && rs2_valid.asBool(false)
})
setTimeout(() => {src2_value_viz.animate({left: 166, top: 70 + 18 * 3}, {
onChange: this.global.canvas.renderAll.bind(this.global.canvas),
duration: 500
})}, 500)
let load_viz = new fabric.Text(ld_data.asInt(0).toString(M4_VIZ_BASE), {
left: 470,
top: 18 * dmem_addr.asInt() + 6 - 40,
fill: "blue",
fontSize: 14,
fontFamily: "monospace",
fontWeight: 1000,
visible: false
})
if (dmem_rd_en.asBool()) {
setTimeout(() => {
load_viz.set({visible: true})
load_viz.animate({left: 146, top: 70}, {
onChange: this.global.canvas.renderAll.bind(this.global.canvas),
duration: 500
})
setTimeout(() => {
load_viz.set({visible: false})
}, 500)
}, 500)
}
let store_viz = new fabric.Text(src2_value.asInt(0).toString(M4_VIZ_BASE), {
left: 166,
top: 70 + 18 * 3,
fill: "blue",
fontSize: 14,
fontFamily: "monospace",
fontWeight: 1000,
visible: false
})
if (dmem_wr_en.asBool()) {
setTimeout(() => {
store_viz.set({visible: true})
store_viz.animate({left: 515, top: 18 * dmem_addr.asInt() - 40}, {
onChange: this.global.canvas.renderAll.bind(this.global.canvas),
duration: 500
})
}, 1000)
}
let result_shadow = new fabric.Text(result.asInt(0).toString(M4_VIZ_BASE), {
left: 146,
top: 70,
fill: "#b0b0df",
fontSize: 14,
fontFamily: "monospace",
fontWeight: 800,
visible: false
})
let result_viz = new fabric.Text(rf_wr_data.asInt(0).toString(M4_VIZ_BASE), {
left: 146,
top: 70,
fill: "blue",
fontSize: 14,
fontFamily: "monospace",
fontWeight: 800,
visible: false
})
if (rd_valid.asBool()) {
setTimeout(() => {
result_viz.set({visible: rf_wr_data != sticky_zero && rf_wr_en.asBool()})
result_shadow.set({visible: result != sticky_zero})
result_viz.animate({left: 317 + 8 * 4, top: 18 * rf_wr_index.asInt(0) - 40}, {
onChange: this.global.canvas.renderAll.bind(this.global.canvas),
duration: 500
})
}, 1000)
}
// Lab completion
// Passed?
this.getObjects().passed.set({visible: false})
if (passed) {
if (passed.step(-1).asBool()) {
this.getObjects().passed.set({visible: true, text:"Passed !!!", fill: "green"})
} else {
// Using an unstable API, so:
try {
passed.goToSimEnd().step(-1)
if (passed.asBool()) {
this.getObjects().passed.set({text:"Sim Passes", visible: true, fill: "lightgray"})
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}
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} catch(e) {
}
}
}
// Missing signals
if (missing_list[0]) {
this.getObjects().missing_sigs.set({visible: true})
this.missing_col1.set({text: missing_list[0]})
this.missing_col2.set({text: missing_list[1]})
}
return [pcPointer, pc_arrow, ...type_texts, rs1_arrow, rs2_arrow, rd_arrow, instrWithValues, fetch_instr_viz, src1_value_viz, src2_value_viz, result_shadow, result_viz, ld_arrow, st_arrow, load_viz, store_viz]
}
/imem[m4_eval(M4_NUM_INSTRS-1):0]
\viz_js
box: {width: 630, height: 18, strokeWidth: 0},
init() {
let binary = new fabric.Text("", {
top: 0,
left: 0,
fontSize: 14,
fontFamily: "monospace",
})
let disassembled = new fabric.Text("", {
top: 0,
left: 330,
fontSize: 14,
fontFamily: "monospace"
})
return {binary, disassembled}
},
onTraceData() {
let instr = this.svSigRef(`instrs(${this.getIndex()})`)
if (instr) {
let binary_str = instr.goToSimStart().asBinaryStr("")
this.getObjects().binary.set({text: binary_str})
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}
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let disassembled = this.svSigRef(`instr_strs(${this.getIndex()})`)
if (disassembled) {
let disassembled_str = disassembled.goToSimStart().asString("")
disassembled_str = disassembled_str.slice(0, -5)
this.getObjects().disassembled.set({text: disassembled_str})
}
},
render() {
// Instruction memory is constant, so just create it once.
let reset = this.svSigRef(`L0_reset_a0`)
let pc = this.svSigRef(`L0_pc_a0`)
let rd_viz = pc && !reset.asBool() && (pc.asInt() >> 2) == this.getIndex()
this.getObjects().disassembled.set({textBackgroundColor: rd_viz ? "#b0ffff" : "white"})
this.getObjects().binary .set({textBackgroundColor: rd_viz ? "#b0ffff" : "white"})
},
where: {left: -680, top: M4_IMEM_TOP}
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\TLV tb()
$passed_cond = (/xreg[30]$value == 32'b1) &&
(! $reset && $next_pc[31:0] == $pc[31:0]);
*passed = >>2$passed_cond;
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// (A copy of this appears in the shell code.)
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\TLV sum_prog()
// /====================\
// | Sum 1 to 9 Program |
// \====================/
//
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// Program to test RV32I
// Add 1,2,3,...,9 (in that order).
//
// Regs:
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// x12 (a2): 10
// x13 (a3): 1..10
// x14 (a4): Sum
//
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m4_asm(ADDI, x14, x0, 0) // Initialize sum register x14 with 0
m4_asm(ADDI, x12, x0, 1010) // Store count of 10 in register x12.
m4_asm(ADDI, x13, x0, 1) // Initialize loop count register x13 with 0
// Loop:
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m4_asm(ADD, x14, x13, x14) // Incremental summation
m4_asm(ADDI, x13, x13, 1) // Increment loop count by 1
m4_asm(BLT, x13, x12, 1111111111000) // If x13 is less than x12, branch to label named <loop>
// Test result value in x14, and set x31 to reflect pass/fail.
m4_asm(ADDI, x30, x14, 111111010100) // Subtract expected value of 44 to set x30 to 1 if and only iff the result is 45 (1 + 2 + ... + 9).
m4_asm(BGE, x0, x0, 0) // Done. Jump to itself (infinite loop). (Up to 20-bit signed immediate plus implicit 0 bit (unlike JALR) provides byte address; last immediate bit should also be 0)
m4_asm_end_tlv()
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m4_define(['M4_MAX_CYC'], 40)
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// ^===================================================================^
\SV
m4_makerchip_module // (Expanded in Nav-TLV pane.)
\TLV
// Do nothing.
\SV
endmodule