First shot at happy path

Add cache arrays and test
Last commit before I nuke it
2026-05-22 23:54:33 -07:00 · 2026-05-22 22:27:53 -07:00 · 2026-05-22 09:10:19 -07:00 · 2026-05-19 19:57:15 -07:00 · 2026-05-16 16:55:21 -07:00 · 2026-05-09 16:03:57 -07:00
40 changed files with 1043 additions and 402 deletions
--- a/sim/application_wrapper/application_wrapper.yaml
+++ b/sim/application_wrapper/application_wrapper.yaml
--- a/sim/application_wrapper/cache/application_wrapper_cache_arrays_test.py
+++ b/sim/application_wrapper/cache/application_wrapper_cache_arrays_test.py
@@ -0,0 +1,205 @@
 import cocotb
 from cocotb.handle import LogicArray
 from cocotb.clock import Clock
 from cocotb.triggers import ReadOnly, NextTimeStep, RisingEdge
 import logging
 import random
 logger = logging.getLogger()
 logger.setLevel(logging.INFO)
 CLK_PERIOD = 5
 SETS = 64
 WAYS = 4
 data_arrays = [{}, {}, {}, {}]
 meta_arrays = [{}, {}, {}, {}]
@cocotb.test
 async def test_sanity(dut):
    cocotb.start_soon(Clock(dut.i_clk, CLK_PERIOD, unit="ns").start())
    await RisingEdge(dut.i_clk)
    await RisingEdge(dut.i_clk)
    for index in range(SETS):
        for way in range(WAYS):
            data = random.randbytes(64)
            meta = random.randint(0, 2**22-1)
            data_arrays[way][index] = data
            meta_arrays[way][index] = meta
            dut.i_cpu_write_data.value = LogicArray.from_bytes(data, byteorder="little")
            dut.i_cpu_write_meta.value = meta
            dut.i_cpu_write_index.value = index
            dut.i_cpu_write_valid.value = 1 << way
            await RisingEdge(dut.i_clk)
    dut.i_cpu_write_valid.value = 0
    await RisingEdge(dut.i_clk)
    for index in range(SETS):
        dut.i_cpu_read_index.value = index
        dut.i_cpu_read_valid.value = 1
        await RisingEdge(dut.i_clk)
        await ReadOnly()
        raw_data = dut.o_cpu_read_data.value
        raw_meta = dut.o_cpu_read_meta.value
        meta = [int(m) for m in raw_meta]
        data_bytes = [v.to_bytes(byteorder="little") for v in raw_data]
        expected_data = [data_arrays[way][index] for way in range(WAYS)]
        expected_meta = [meta_arrays[way][index] for way in range(WAYS)]
        if data_bytes != expected_data:
            logger.info("Data Error")
        if meta != expected_meta:
            logger.info("Meta Error")
        await NextTimeStep()
    dut.i_cpu_read_valid.value = 0
    for index in range(SETS):
        for way in range(WAYS):
            data = random.randbytes(64)
            meta = random.randint(0, 2**22-1)
            data_arrays[way][index] = data
            meta_arrays[way][index] = meta
            dut.i_snoop_write_data.value = LogicArray.from_bytes(data, byteorder="little")
            dut.i_snoop_write_meta.value = meta
            dut.i_snoop_write_index.value = index
            dut.i_snoop_write_valid.value = 1 << way
            await RisingEdge(dut.i_clk)
    dut.i_snoop_write_valid.value = 0
    await RisingEdge(dut.i_clk)
    for index in range(SETS):
        dut.i_snoop_read_index.value = index
        dut.i_snoop_read_valid.value = 1
        await RisingEdge(dut.i_clk)
        await ReadOnly()
        raw_data = dut.o_snoop_read_data.value
        raw_meta = dut.o_snoop_read_meta.value
        meta = [int(m) for m in raw_meta]
        data_bytes = [v.to_bytes(byteorder="little") for v in raw_data]
        expected_data = [data_arrays[way][index] for way in range(WAYS)]
        expected_meta = [meta_arrays[way][index] for way in range(WAYS)]
        if data_bytes != expected_data:
            logger.info("Data Error")
        if meta != expected_meta:
            logger.info("Meta Error")
        await NextTimeStep()
    dut.i_snoop_read_valid.value = 0
@cocotb.test
 async def test_random_access(dut):
    cocotb.start_soon(Clock(dut.i_clk, CLK_PERIOD, unit="ns").start())
    ITERS = 1024
    for _ in range(ITERS):
        cpu_write_way = random.randint(0, WAYS-1)
        cpu_write_set = random.randint(0, SETS-1)
        while True:
            snoop_write_way = random.randint(0, WAYS-1)
            snoop_write_set = random.randint(0, SETS-1)
            if snoop_write_way != cpu_write_way and snoop_write_set != cpu_write_set:
                break
        cpu_write_data = random.randbytes(64)
        cpu_write_meta = random.randint(0, 2**22-1)
        snoop_write_data = random.randbytes(64)
        snoop_write_meta = random.randint(0, 2**22-1)
        data_arrays[cpu_write_way][cpu_write_set] = cpu_write_data
        meta_arrays[cpu_write_way][cpu_write_set] = cpu_write_meta
        data_arrays[snoop_write_way][snoop_write_set] = snoop_write_data
        meta_arrays[snoop_write_way][snoop_write_set] = snoop_write_meta
        dut.i_cpu_write_data.value = LogicArray.from_bytes(cpu_write_data, byteorder="little")
        dut.i_cpu_write_meta.value = cpu_write_meta
        dut.i_cpu_write_index.value = cpu_write_set
        dut.i_cpu_write_valid.value = 1 << cpu_write_way
        dut.i_snoop_write_data.value = LogicArray.from_bytes(snoop_write_data, byteorder="little")
        dut.i_snoop_write_meta.value = snoop_write_meta
        dut.i_snoop_write_index.value = snoop_write_set
        dut.i_snoop_write_valid.value = 1 << snoop_write_way
        cpu_read_way = random.randint(0, WAYS-1)
        cpu_read_set = random.randint(0, SETS-1)
        snoop_read_way = random.randint(0, WAYS-1)
        snoop_read_set = random.randint(0, SETS-1)
        dut.i_cpu_read_index.value = cpu_read_set
        dut.i_snoop_read_index.value = snoop_read_set
        dut.i_cpu_read_valid.value = 1
        dut.i_snoop_read_valid.value = 1
        await RisingEdge(dut.i_clk)
        await ReadOnly()
        cpu_data = dut.o_cpu_read_data.value[cpu_read_way].to_bytes(byteorder="little")
        cpu_meta = int(dut.o_cpu_read_meta.value[cpu_read_way])
        snoop_data = dut.o_snoop_read_data.value[snoop_read_way].to_bytes(byteorder="little")
        snoop_meta = int(dut.o_snoop_read_meta.value[snoop_read_way])
        cpu_expected_data = data_arrays[cpu_read_way][cpu_read_set]
        cpu_expected_meta = meta_arrays[cpu_read_way][cpu_read_set]
        snoop_expected_data = data_arrays[snoop_read_way][snoop_read_set]
        snoop_expected_meta = meta_arrays[snoop_read_way][snoop_read_set]
        if cpu_data != cpu_expected_data:
            logger.error("CPU Data Error")
        if cpu_meta != cpu_expected_meta:
            logger.info("CPU Meta Error")
        if snoop_data != snoop_expected_data:
            logger.error("snoop Data Error")
        if snoop_meta != snoop_expected_meta:
            logger.info("snoop Meta Error")
        await NextTimeStep()
--- a/sim/application_wrapper/cache/application_wrapper_cache_l1_test.py
+++ b/sim/application_wrapper/cache/application_wrapper_cache_l1_test.py
@@ -0,0 +1,493 @@
 import cocotb
 from cocotb.handle import Immediate, LogicArray
 from cocotb.simulator import get_sim_time
 from cocotb.clock import Clock
 from cocotb.triggers import Timer, RisingEdge, FallingEdge, with_timeout
 from enum import IntEnum
 from collections import defaultdict
 from collections.abc import Mapping
 import logging
 import random
 logger = logging.getLogger()
 logger.setLevel(logging.INFO)
 CLK_PERIOD = 5
 reference_cache_data = defaultdict(bytearray)
 higher_cache_data = defaultdict(bytearray)
 async def cpu_sequencer(dut, sequence: Mapping[int, int, bool, bool]):
    addr, do, we, sync = sequence[0]
    dut.i_addr.value = addr
    dut.i_data.value = do
    dut.i_we.value = we
    dut.i_sync.value = sync
    await FallingEdge(dut.i_rst)
    index = 1
    while index < len(sequence):
        await RisingEdge(dut.i_clk)
        if not dut.o_rdy.value:
            continue
        addr, do, we, sync = sequence[index]
        dut.i_addr.value = addr
        dut.i_data.value = do
        dut.i_we.value = we
        dut.i_sync.value = sync
        index += 1
    await Timer(150, "ns")
 async def cpu_data_monitor(dut):
    previous_address = 0
    address = 0
    we = 0
    previous_we = 0
    i_data = 0
    previous_i_data = 0
    await FallingEdge(dut.i_rst)
    while True:
        await RisingEdge(dut.i_clk)
        if not dut.o_rdy.value:
            continue
        previous_address = address
        previous_we = we
        address = int(dut.i_addr.value)
        we = int(dut.i_we.value)
        previous_i_data = i_data
        i_data = int(dut.i_data.value)
        data = int(dut.o_data.value)
        if previous_address == 0:
            continue
        # don't care if it was a write
        if previous_we:
            index = (previous_address // 64) % 64
            offset = previous_address % 64
            cacheline = reference_cache_data[index]
            cacheline[offset] = previous_i_data
            logger.debug(f"We saw a write here {index=} {offset=} previous_data={previous_i_data:x}")
        else:
            index = (previous_address // 64) % 64
            offset = previous_address % 64
            cacheline = reference_cache_data[index]
            expected_data = cacheline[offset]
            if (data != expected_data):
                logger.error(f"{get_sim_time()} {address=:x} {previous_address=:x} {data=:x} {expected_data=:x}")
 async def mmu_sequencer(dut):
    while True:
        await RisingEdge(dut.i_clk)
        dut.i_phys_address.value = dut.i_addr.value
 async def handle_higher_level_cache(dut):
    dut.i_cache_rdy.value = 0
    class CacheCmd(IntEnum):
        CACHE_NONE = 0
        CACHE_READ = 1
        CACHE_WRITE = 2
    while True:
        await RisingEdge(dut.i_clk)
        dut.i_cache_rdy.value = 0
        if not dut.o_cache_valid.value:
            continue
        cmd = CacheCmd(dut.o_cache_cmd.value)
        addr = int(dut.o_cache_addr.value)
        logger.debug(f"{cmd=} {addr=}")
        if cmd == CacheCmd.CACHE_READ:
            if addr not in higher_cache_data:
                data = bytearray(random.randbytes(64))
                higher_cache_data[addr] = data
            dut.i_cache_data.value = LogicArray.from_bytes(higher_cache_data[addr] , byteorder="little")
            dut.i_cache_rdy.value = 1
            reference_cache_data[int(dut.read_index.value)] = higher_cache_data[addr]
            await RisingEdge(dut.i_clk)
            dut.i_cache_rdy.value = 0
        elif cmd == CacheCmd.CACHE_WRITE:
            dut.i_cache_rdy.value = 1
            data = dut.o_cache_data.value.to_bytes(byteorder="little")
            higher_cache_data[addr] = bytearray(data)
            await RisingEdge(dut.i_clk)
            dut.i_cache_rdy.value = 0
@cocotb.test
 async def sanity_test(dut):
    expected_cache_misses = 0
    expected_evictions = 0
    cocotb.start_soon(Clock(dut.i_clk, CLK_PERIOD, unit="ns").start())
    cocotb.start_soon(mmu_sequencer(dut))
    cocotb.start_soon(handle_higher_level_cache(dut))
    cocotb.start_soon(cpu_data_monitor(dut))
    cpu_sequence = [
        (0x100, 0xaa, True, False),
        (0x101, 0xbb, True, False),
        (0x100, 0x00, False, False),
        (0x101, 0x00, False, False),
        (0x200, 0xcc, True, False),
        (0x201, 0xdd, True, False),
        (0x100, 0x00, False, False),
        (0x101, 0x00, False, False),
        (0x200, 0x00, False, False),
        (0x201, 0x00, False, False),
        (0x100, 0x11, True, False),
        (0x101, 0x22, True, False),
        (0x100, 0x00, False, False),
        (0x200, 0x33, True, False),
        (0x101, 0x00, False, False),
        (0x201, 0x44, True, False),
        (0x100, 0x00, False, False),
        (0x200, 0x00, False, False),
        (0x101, 0x00, False, False),
        (0x201, 0x00, False, False),
    ]
    dut.i_rst.value = Immediate(1)
    for _ in range(10):
        await RisingEdge(dut.i_clk)
    dut.i_rst.value = 0
    await cpu_sequencer(dut, cpu_sequence)
    expected_cache_misses = 2
    expected_evictions = 0
    dut_evictions = int(dut.eviction_count.value)
    dut_misses = int(dut.cache_miss_count.value)
    if dut_evictions != expected_evictions:
        logger.error(f"Eviction count mismatch! Expected {expected_evictions}, saw {dut_evictions}")
    if dut_misses != expected_cache_misses:
        logger.error(f"Miss count mismatch! Expected {expected_cache_misses}, saw {dut_misses}")
@cocotb.test
 async def clean_evict_test(dut):
    cocotb.start_soon(Clock(dut.i_clk, CLK_PERIOD, unit="ns").start())
    cocotb.start_soon(mmu_sequencer(dut))
    cocotb.start_soon(handle_higher_level_cache(dut))
    cocotb.start_soon(cpu_data_monitor(dut))
    # Read from one cacheline, then read from an aliased cacheline without writing.
    # cacheline should be overwritten without evicting
    cpu_sequence = [
        (0x100, 0x00, False, False),
        (0x1100, 0x00, False, False),
    ]
    dut.i_rst.value = Immediate(1)
    for _ in range(10):
        await RisingEdge(dut.i_clk)
    dut.i_rst.value = 0
    await cpu_sequencer(dut, cpu_sequence)
    expected_cache_misses = 2
    expected_evictions = 0
    dut_evictions = int(dut.eviction_count.value)
    dut_misses = int(dut.cache_miss_count.value)
    if dut_evictions != expected_evictions:
        logger.error(f"Eviction count mismatch! Expected {expected_evictions}, saw {dut_evictions}")
    if dut_misses != expected_cache_misses:
        logger.error(f"Miss count mismatch! Expected {expected_cache_misses}, saw {dut_misses}")
@cocotb.test
 async def dirty_evict_test(dut):
    cocotb.start_soon(Clock(dut.i_clk, CLK_PERIOD, unit="ns").start())
    cocotb.start_soon(mmu_sequencer(dut))
    cocotb.start_soon(handle_higher_level_cache(dut))
    cocotb.start_soon(cpu_data_monitor(dut))
    # Read from one cacheline, then read from an aliased cacheline without writing.
    # cacheline should be overwritten without evicting
    cpu_sequence = [
        (0x100, 0x41, True, False),
        (0x101, 0x42, True, False),
        (0x1100, 0x00, False, False),
        (0x1100, 0xaa, True, False),
        (0x100, 0x00, False, False)
    ]
    dut.i_rst.value = Immediate(1)
    for _ in range(10):
        await RisingEdge(dut.i_clk)
    dut.i_rst.value = 0
    await cpu_sequencer(dut, cpu_sequence)
    expected_cache_misses = 3
    expected_evictions = 2
    dut_evictions = int(dut.eviction_count.value)
    dut_misses = int(dut.cache_miss_count.value)
    if dut_evictions != expected_evictions:
        logger.error(f"Eviction count mismatch! Expected {expected_evictions}, saw {dut_evictions}")
    if dut_misses != expected_cache_misses:
        logger.error(f"Miss count mismatch! Expected {expected_cache_misses}, saw {dut_misses}")
@cocotb.test
 async def long_write_thrash_test(dut):
    cocotb.start_soon(Clock(dut.i_clk, CLK_PERIOD, unit="ns").start())
    cocotb.start_soon(mmu_sequencer(dut))
    cocotb.start_soon(handle_higher_level_cache(dut))
    cocotb.start_soon(cpu_data_monitor(dut))
    num_lines_read = 2**20//64
    cpu_sequence = [
        (i*64, i % 256, True, False)
    for i in range(num_lines_read)]
    dut.i_rst.value = Immediate(1)
    for _ in range(10):
        await RisingEdge(dut.i_clk)
    dut.i_rst.value = 0
    await cpu_sequencer(dut, cpu_sequence)
    # The last 64 lines aren't evicted
    expected_cache_misses = num_lines_read
    expected_evictions = num_lines_read - 64
    dut_evictions = int(dut.eviction_count.value)
    dut_misses = int(dut.cache_miss_count.value)
    if dut_evictions != expected_evictions:
        logger.error(f"Eviction count mismatch! Expected {expected_evictions}, saw {dut_evictions}")
    if dut_misses != expected_cache_misses:
        logger.error(f"Miss count mismatch! Expected {expected_cache_misses}, saw {dut_misses}")
@cocotb.test
 async def long_write_read_thrash_test(dut):
    cocotb.start_soon(Clock(dut.i_clk, CLK_PERIOD, unit="ns").start())
    cocotb.start_soon(mmu_sequencer(dut))
    cocotb.start_soon(handle_higher_level_cache(dut))
    cocotb.start_soon(cpu_data_monitor(dut))
    num_lines_read = 2**20//64
    cpu_sequence = [
        (i*64, i % 256, True, False)
    for i in range(num_lines_read)]
    cpu_sequence.extend([
        (i*64, 0, False, False)
    for i in range(num_lines_read)])
    dut.i_rst.value = Immediate(1)
    for _ in range(10):
        await RisingEdge(dut.i_clk)
    dut.i_rst.value = 0
    await cpu_sequencer(dut, cpu_sequence)
    expected_cache_misses = num_lines_read * 2
    expected_evictions = num_lines_read
    dut_evictions = int(dut.eviction_count.value)
    dut_misses = int(dut.cache_miss_count.value)
    if dut_evictions != expected_evictions:
        logger.error(f"Eviction count mismatch! Expected {expected_evictions}, saw {dut_evictions}")
    if dut_misses != expected_cache_misses:
        logger.error(f"Miss count mismatch! Expected {expected_cache_misses}, saw {dut_misses}")
@cocotb.test
 async def long_write_linear_test(dut):
    cocotb.start_soon(Clock(dut.i_clk, CLK_PERIOD, unit="ns").start())
    cocotb.start_soon(mmu_sequencer(dut))
    cocotb.start_soon(handle_higher_level_cache(dut))
    cocotb.start_soon(cpu_data_monitor(dut))
    num_bytes_read = 2**16
    cpu_sequence = [
        (i, i % 256, True, False)
    for i in range(num_bytes_read)]
    dut.i_rst.value = Immediate(1)
    for _ in range(10):
        await RisingEdge(dut.i_clk)
    dut.i_rst.value = 0
    await cpu_sequencer(dut, cpu_sequence)
    expected_cache_misses = num_bytes_read // 64
    expected_evictions = num_bytes_read//64 - 64
    dut_evictions = int(dut.eviction_count.value)
    dut_misses = int(dut.cache_miss_count.value)
    if dut_evictions != expected_evictions:
        logger.error(f"Eviction count mismatch! Expected {expected_evictions}, saw {dut_evictions}")
    if dut_misses != expected_cache_misses:
        logger.error(f"Miss count mismatch! Expected {expected_cache_misses}, saw {dut_misses}")
@cocotb.test
 async def long_write_read_linear_test(dut):
    cocotb.start_soon(Clock(dut.i_clk, CLK_PERIOD, unit="ns").start())
    cocotb.start_soon(mmu_sequencer(dut))
    cocotb.start_soon(handle_higher_level_cache(dut))
    cocotb.start_soon(cpu_data_monitor(dut))
    num_bytes_read = 2**16
    cpu_sequence = [
        (i, i % 256, True, False)
    for i in range(num_bytes_read)]
    cpu_sequence.extend([
        (i, 0, False, False)
    for i in range(num_bytes_read)])
    dut.i_rst.value = Immediate(1)
    for _ in range(10):
        await RisingEdge(dut.i_clk)
    dut.i_rst.value = 0
    await cpu_sequencer(dut, cpu_sequence)
    expected_cache_misses = (num_bytes_read // 64) * 2
    expected_evictions = num_bytes_read // 64
    dut_evictions = int(dut.eviction_count.value)
    dut_misses = int(dut.cache_miss_count.value)
    if dut_evictions != expected_evictions:
        logger.error(f"Eviction count mismatch! Expected {expected_evictions}, saw {dut_evictions}")
    if dut_misses != expected_cache_misses:
        logger.error(f"Miss count mismatch! Expected {expected_cache_misses}, saw {dut_misses}")
@cocotb.test
 async def short_write_read_linear_test(dut):
    # What makes this test "short" is that we read 64 cachelines,
    # so we shouldn't have to make any evictions
    # TODO add number of evictions and cachlines loaded as performance counteres
    cocotb.start_soon(Clock(dut.i_clk, CLK_PERIOD, unit="ns").start())
    cocotb.start_soon(mmu_sequencer(dut))
    cocotb.start_soon(handle_higher_level_cache(dut))
    cocotb.start_soon(cpu_data_monitor(dut))
    num_bytes_read = 64*64
    cpu_sequence = [
        (i, i % 256, True, False)
    for i in range(num_bytes_read)] # 64 bytes times 64 cachelines
    cpu_sequence.extend([
        (i, i % 256, False, False)
    for i in range(num_bytes_read)]) # 64 bytes times 64 cachelines
    dut.i_rst.value = Immediate(1)
    for _ in range(10):
        await RisingEdge(dut.i_clk)
    dut.i_rst.value = 0
    await cpu_sequencer(dut, cpu_sequence)
    expected_cache_misses = num_bytes_read//64
    expected_evictions = num_bytes_read//64 - 64
    dut_evictions = int(dut.eviction_count.value)
    dut_misses = int(dut.cache_miss_count.value)
    if dut_evictions != expected_evictions:
        logger.error(f"Eviction count mismatch! Expected {expected_evictions}, saw {dut_evictions}")
    if dut_misses != expected_cache_misses:
        logger.error(f"Miss count mismatch! Expected {expected_cache_misses}, saw {dut_misses}")
@cocotb.test
 async def random_access_test(dut):
    # Just fully random accesses
    # This is also kind of a thrash test since this is not realistic
    cocotb.start_soon(Clock(dut.i_clk, CLK_PERIOD, unit="ns").start())
    cocotb.start_soon(mmu_sequencer(dut))
    cocotb.start_soon(handle_higher_level_cache(dut))
    cocotb.start_soon(cpu_data_monitor(dut))
    num_bytes_read = 2**18
    cpu_sequence = [
        (random.randint(0, 2**32), random.randint(0, 255), random.randint(0,1), random.randint(0,1))
    for _ in range(num_bytes_read)] # 64 bytes times 64 cachelines
    dut.i_rst.value = Immediate(1)
    for _ in range(10):
        await RisingEdge(dut.i_clk)
    dut.i_rst.value = 0
    await cpu_sequencer(dut, cpu_sequence)
--- a/sim/application_wrapper/cache/cache.yaml
+++ b/sim/application_wrapper/cache/cache.yaml
@@ -0,0 +1,7 @@
 tests:
  - name: "application_wrapper_cache_arrays_test"
    toplevel: "application_wrapper_cache_arrays"
    modules:
      - "application_wrapper_cache_arrays_test"
    sources: "sources.list"
    waves: True
--- a/sim/application_wrapper/cache/sources.list
+++ b/sim/application_wrapper/cache/sources.list
@@ -0,0 +1 @@
 ../../../src/application_wrapper/sources.list
--- a/sim/embedded_wrapper/asm_source/Makefile
+++ b/sim/embedded_wrapper/asm_source/Makefile
--- a/sim/embedded_wrapper/asm_source/jsr_test
+++ b/sim/embedded_wrapper/asm_source/jsr_test
--- a/sim/embedded_wrapper/asm_source/jsr_test.s
+++ b/sim/embedded_wrapper/asm_source/jsr_test.s
--- a/sim/embedded_wrapper/asm_source/lda_test
+++ b/sim/embedded_wrapper/asm_source/lda_test
--- a/sim/embedded_wrapper/asm_source/lda_test.s
+++ b/sim/embedded_wrapper/asm_source/lda_test.s
--- a/sim/embedded_wrapper/asm_source/memory.cfg
+++ b/sim/embedded_wrapper/asm_source/memory.cfg
--- a/sim/embedded_wrapper/asm_source/vectors.s
+++ b/sim/embedded_wrapper/asm_source/vectors.s
--- a/sim/embedded_wrapper/verilog6502_32bit.yaml
+++ b/sim/embedded_wrapper/verilog6502_32bit.yaml
@@ -3,7 +3,7 @@ tests:
    toplevel: "cpu_65c02"
    modules:
      - "verilog6502_32bit_test"
-    sources: "sources.list"
+    sources: "../sources.list"
    waves: True
    defines:
      SIM: "hi"
--- a/sim/embedded_wrapper/verilog6502_32bit_asm.yaml
+++ b/sim/embedded_wrapper/verilog6502_32bit_asm.yaml
@@ -3,7 +3,7 @@ tests:
    toplevel: "cpu_65c02"
    modules:
      - "verilog6502_32bit_asm_test"
-    sources: "sources.list"
+    sources: "../sources.list"
    waves: True
    defines:
      SIM: "hi"
--- a/sim/embedded_wrapper/verilog6502_32bit_asm_test.py
+++ b/sim/embedded_wrapper/verilog6502_32bit_asm_test.py
--- a/sim/embedded_wrapper/verilog6502_32bit_test.py
+++ b/sim/embedded_wrapper/verilog6502_32bit_test.py
--- a/sim/embedded_wrapper/verilog6502_wrapper.yaml
+++ b/sim/embedded_wrapper/verilog6502_wrapper.yaml
@@ -3,7 +3,7 @@ tests:
    toplevel: "verilog6502_wrapper_tb"
    modules:
      - "verilog6502_wrapper_test"
-    sources: "sources.list"
+    sources: "../sources.list"
    waves: True
    defines:
      SIM: "hi"
--- a/sim/embedded_wrapper/verilog6502_wrapper_tb.sv
+++ b/sim/embedded_wrapper/verilog6502_wrapper_tb.sv
@@ -14,7 +14,7 @@ logic i_irq_ext;
 logic i_nmi_ext;
-verilog6502_wrapper u_dut(
+verilog6502_embedded_wrapper u_dut(
    .clk(clk),
    .rst(rst),
    .s_apb(s_apb),
--- a/sim/embedded_wrapper/verilog6502_wrapper_test.py
+++ b/sim/embedded_wrapper/verilog6502_wrapper_test.py
--- a/sim/sources.list
+++ b/sim/sources.list
@@ -1,5 +1,5 @@
 verilator.vlt
-verilog6502_wrapper_tb.sv
+embedded_wrapper/verilog6502_wrapper_tb.sv
 ../src/sources.list
--- a/src/application_wrapper/application_wrapper_top.sv
+++ b/src/application_wrapper/application_wrapper_top.sv
@@ -0,0 +1,3 @@
 module application_wrapper_top();
 endmodule
--- a/src/application_wrapper/cache/application_wrapper_cache_arrays.sv
+++ b/src/application_wrapper/cache/application_wrapper_cache_arrays.sv
@@ -0,0 +1,72 @@
 module application_wrapper_cache_arrays #(
    parameter NUM_WAYS = 4,
    parameter NUM_SETS = 64,
    localparam DATA_W = 64*8,
    localparam OFFSET_W = 6,
    localparam INDEX_W = $clog2(NUM_SETS),
    localparam TAG_W = 32 - INDEX_W - OFFSET_W,
    localparam META_W = TAG_W + 2
 ) (
    input  logic                i_clk,
    input  logic [INDEX_W-1:0]  i_cpu_read_index,
    input  logic                i_cpu_read_valid,
    output logic [DATA_W-1:0]   o_cpu_read_data [NUM_WAYS],
    output logic [META_W-1:0]   o_cpu_read_meta [NUM_WAYS],
    input  logic [INDEX_W-1:0]  i_cpu_write_index,
    input  logic [NUM_WAYS-1:0] i_cpu_write_valid,
    input  logic [DATA_W-1:0]   i_cpu_write_data,
    input  logic [META_W-1:0]   i_cpu_write_meta,
    input  logic [INDEX_W-1:0]  i_snoop_read_index,
    input  logic                i_snoop_read_valid,
    output logic [DATA_W-1:0]   o_snoop_read_data [NUM_WAYS],
    output logic [META_W-1:0]   o_snoop_read_meta [NUM_WAYS],
    input  logic [INDEX_W-1:0]  i_snoop_write_index,
    input  logic [NUM_WAYS-1:0] i_snoop_write_valid,
    input  logic [DATA_W-1:0]   i_snoop_write_data,
    input  logic [META_W-1:0]   i_snoop_write_meta
 );
 // memory arrays. 
 // In order to make these WRITE_FIRST, we put a blocking assignment
 // for the write data before the assignment to the read data
 logic [DATA_W-1:0] data_arrays [NUM_SETS][NUM_WAYS];
 logic [META_W-1:0] meta_arrays [NUM_SETS][NUM_WAYS];
 always @(posedge i_clk) begin
    for (int i = 0; i < NUM_WAYS; i++) begin
        if (i_cpu_write_valid[i]) begin
            data_arrays[i_cpu_write_index][i] = i_cpu_write_data;
            meta_arrays[i_cpu_write_index][i] = i_cpu_write_meta;
        end
        if (i_snoop_write_valid[i]) begin
            data_arrays[i_snoop_write_index][i] = i_snoop_write_data;
            meta_arrays[i_snoop_write_index][i] = i_snoop_write_meta;
        end
    end
    if (i_cpu_read_valid) begin
        o_cpu_read_data = data_arrays[i_cpu_read_index];
        o_cpu_read_meta = meta_arrays[i_cpu_read_index];
    end
    if (i_snoop_read_valid) begin
        o_snoop_read_data = data_arrays[i_snoop_read_index];
        o_snoop_read_meta = meta_arrays[i_snoop_read_index];
    end
 end
 endmodule
--- a/src/application_wrapper/cache/application_wrapper_cache_miss_handler.sv
+++ b/src/application_wrapper/cache/application_wrapper_cache_miss_handler.sv
@@ -0,0 +1,192 @@
 module application_wrapper_cache_miss_handler #(
    parameter NUM_WAYS = 4,
    parameter NUM_SETS = 64,
    localparam CPU_W = 8,
    localparam DATA_W = 64*8,
    localparam OFFSET_W = 6,
    localparam INDEX_W = $clog2(NUM_SETS),
    localparam TAG_W = 32 - INDEX_W - OFFSET_W,
    localparam LRU_W = NUM_WAYS-1
    localparam META_W = TAG_W + 2
 ) (
    input  logic                i_clk,
    input  logic                i_rst,
    // NOTE: tag is physical tag, expected 1 cycle after the index and the offset
    input  logic [TAG_W-1:0]    i_cpu_tag,
    input  logic [INDEX_W-1:0]  i_cpu_index,
    input  logic [OFFSET_W-1:0] i_cpu_offset,
    input  logic                i_rdy,
    output logic                o_rdy,
    input  logic                i_cpu_we,
    input  logic [CPU_W-1:0]    i_cpu_data,
    output logic [CPU_W-1:0]    o_cpu_data,
    output logic [INDEX_W-1:0]  o_read_index,
    output logic                o_read_valid,
    input  logic [DATA_W-1:0]   i_read_data [NUM_WAYS],
    input  logic [META_W-1:0]   i_read_meta [NUM_WAYS],
    output logic [INDEX_W-1:0]  o_write_index,
    output logic [NUM_WAYS-1:0] o_write_valid,
    output logic [DATA_W-1:0]   o_write_data,
    output logic [META_W-1:0]   o_write_meta,
    output logic [INDEX_W-1:0]  o_lru_read_index,
    output logic                o_lru_read_valid,
    input  logic [LRU_W-1:0]]   i_lru_read_data,
    output logic [INDEX_W-1:0]  o_lru_write_index,
    output logic                o_lru_write_valid,
    output logic [LRU_W-1:0]]   o_lru_write_data,
 );
 enum logic [3:0] {
    IDLE,
    CHECK_VICTIM,
    WRITEBACK,
    WAIT_WRITEBACK_ACK,
    REQUEST_MEMORY,
    WAIT_MEMORY,
    INSTALL_LINE,
    UPDATE_LRU,
    REQUEST_OWNERSHIP
 } state, state_next;
 logic cpu_we_d1;
 logic cpu_i_data_d1;
 logic [INDEX_W-1:0]  cpu_index_d1;
 logic [OFFSET_W-1:0] cpu_offset_d1;
 logic way_match_found;
 logic [NUM_WAYS-1:0] way_select_mask;
 mesi_e mesi;
 logic [TAG_W-1:0] tag;
 always_ff @(posedge i_clk) begin
    if (i_rst) begin
        state <= IDLE;
    end else begin
        state <= state_next;
    end
    cpu_we_d1 <= i_cpu_we;
    cpu_i_data_d1 <= i_cpu_data
    cpu_index_d1 <= i_cpu_index;
    cpu_offset_d1 <= i_cpu_offset;
 end
 always_comb begin
    o_rdy = '0;
    o_cpu_data = '0;
    o_read_valid = '0;
    o_read_index = '0;
    o_write_valid = '0;
    o_write_index = '0;
    o_write_data = '0;
    o_write_meta = '0;
    o_lru_read_valid = '0;
    o_lru_read_index = '0;
    o_lru_write_valid = '0;
    o_lru_write_index = '0;
    o_lru_write_data = '0;
    state_next = state;
    case (state)
        IDLE: begin
            // by default, o_rdy is 1 unless something is wrong
            o_rdy = '1;
            // Read from arrays
            o_read_index = i_cpu_index;
            o_read_valid = i_rdy;
            o_lru_read_index = i_cpu_index;
            o_lru_read_valid = i_rdy;
            // data from previous cycle that was read from arrays
            way_match_found = '0;
            way_select_mask = '0;
            for (int i; i < NUM_WAYS; i++) begin
                {mesi, tag} = i_read_meta[i];
                if (tag == i_cpu_tag && mesi != MESI_INVALID) begin
                    way_match_found = '1;
                    way_select_mask[i] = '1;
                    break;
                end
            end
            // We have a match, so either read or write data
            if (way_match_found) begin
                if (cpu_we_d1) begin
                    // write data back to the cache array
                    // check if we are in the M or E states before we write.
                    // If we are in S then we need to request ownership before
                    // we can modify it.
                    if (mesi == MESI_MODIFIED || mesi == MESI_EXCLUSIVE) begin
                        o_write_data = i_read_data;
                        o_write_data[cpu_offset_d1 +: 8] = cpu_i_data_d1;
                        o_write_meta = {MESI_MODIFIED, i_cpu_tag};
                        o_write_valid = way_select_mask;
                        o_write_index = cpu_index_d1;
                    end else begin
                        o_rdy = '0;
                        state_next = REQUEST_OWNERSHIP;
                    end
                end else begin
                    // Send the data to the CPU
                    o_cpu_data = i_read_data[cpu_offset_d1 +: 8];
                end
                // update lru
                // start by copying the read data, then change the bits
                // based on what we matched.
                o_lru_write_index = cpu_index_d1;
                o_lru_write_data = i_lru_read_data;
                o_lru_write_valid = '1;
                case (way_select_mask)
                    4'b0001: begin
                        o_lru_write_data[0] = '1;
                        o_lru_write_data[1] = '1;
                    end
                    4'b0010: begin
                        o_lru_write_data[0] = '1;
                        o_lru_write_data[1] = '0;
                    end
                    4'b0100: begin
                        o_lru_write_data[0] = '0;
                        o_lru_write_data[2] = '1;
                    end
                    4'b1000: begin
                        o_lru_write_data[0] = '0;
                        o_lru_write_data[2] = '0;
                    end
                endcase
            end
        end
        default: begin
        end
    endcase
 end
--- a/src/application_wrapper/cache/application_wrapper_cache_pkg.sv
+++ b/src/application_wrapper/cache/application_wrapper_cache_pkg.sv
@@ -0,0 +1,28 @@
 package application_wrapper_cache_pkg;
    typedef struct {
        logic cache_disable;
        logic read_eanble;
        logic write_enable;
        logic execute_enable;
        logic supervisor;
        logic present;
        logic write_through;
    } page_table_entry_t;
    typedef enum logic [2:0] {
        CACHE_NONE,
        CACHE_READ_SHARED,
        CACHE_READ_UNIQUE,
        CACHE_WRITE,
        CACHE_CLEAN_UNIQUE
    } cache_cmd_e;
    typedef enum logic [1:0] {
        MESI_MODIFIED,
        MESI_EXCLUSIVE,
        MESI_SHARED,
        MESI_INVALID
    } mesi_e;
 endpackage
--- a/src/application_wrapper/cache/application_wrapper_cache_top.sv
+++ b/src/application_wrapper/cache/application_wrapper_cache_top.sv
--- a/src/application_wrapper/cache/application_wrapper_mmu.sv
+++ b/src/application_wrapper/cache/application_wrapper_mmu.sv
@@ -0,0 +1,21 @@
 import application_wrapper_cache_pkg::*;
 module application_wrapper_mmu #(
    parameter TLB_COUNT = 32,
    parameter ADDR_WIDTH = 32,
    parameter LOG2_PAGE_SIZE = 12
 ) (
    input  logic                    i_clk,
    input  logic                    i_rst,
    input  logic [ADDR_WIDTH-1:0]   i_cpu_addr,
    input                           i_we,
    input                           i_rdy,
    input                           o_rdy,
    output logic [ADDR_WIDTH-1:0]   o_phys_address,
    output page_table_entry_t       o_table_entry,
    output logic                    o_mmu_valid
 );
 endmodule
--- a/src/application_wrapper/sources.list
+++ b/src/application_wrapper/sources.list
@@ -0,0 +1,6 @@
 cache/application_wrapper_cache_pkg.sv
 cache/application_wrapper_cache_arrays.sv
 cache/application_wrapper_mmu.sv
 cache/application_wrapper_cache_top.sv
 application_wrapper_top.sv
--- a/src/embedded_wrapper/regs/gen_regs.sh
+++ b/src/embedded_wrapper/regs/gen_regs.sh
--- a/src/embedded_wrapper/regs/verilog6502_io_regs.rdl
+++ b/src/embedded_wrapper/regs/verilog6502_io_regs.rdl
--- a/src/embedded_wrapper/regs/verilog6502_io_regs.sv
+++ b/src/embedded_wrapper/regs/verilog6502_io_regs.sv
--- a/src/embedded_wrapper/regs/verilog6502_io_regs_pkg.sv
+++ b/src/embedded_wrapper/regs/verilog6502_io_regs_pkg.sv
--- a/src/embedded_wrapper/verilog6502_addr_decoder.sv
+++ b/src/embedded_wrapper/verilog6502_addr_decoder.sv
--- a/src/embedded_wrapper/verilog6502_apb_adapter.sv
+++ b/src/embedded_wrapper/verilog6502_apb_adapter.sv
--- a/src/embedded_wrapper/verilog6502_embedded_wrapper.sv
+++ b/src/embedded_wrapper/verilog6502_embedded_wrapper.sv
@@ -7,7 +7,7 @@
 // 0x00010000-0xFFFFEFFF    External AXI
 // 0xFFFFF000-0xFFFFFFFF    Processor IO 
-module verilog6502_wrapper(
+module verilog6502_embedded_wrapper(
    input   clk,
    input   rst,
--- a/src/embedded_wrapper/verilog6502_external_memory.sv
+++ b/src/embedded_wrapper/verilog6502_external_memory.sv
--- a/src/embedded_wrapper/verilog6502_internal_memory.sv
+++ b/src/embedded_wrapper/verilog6502_internal_memory.sv
--- a/src/fpga6502.sv
+++ b/src/fpga6502.sv
@@ -1,387 +0,0 @@
 module fpga6502 (
    output		    jtagCtrl_tdi,
    input		    jtagCtrl_tdo,
    output		    jtagCtrl_enable,
    output		    jtagCtrl_capture,
    output		    jtagCtrl_shift,
    output		    jtagCtrl_update,
    output		    jtagCtrl_reset,
    input		    ut_jtagCtrl_tdi,
    output		    ut_jtagCtrl_tdo,
    input		    ut_jtagCtrl_enable,
    input		    ut_jtagCtrl_capture,
    input		    ut_jtagCtrl_shift,
    input		    ut_jtagCtrl_update,
    input		    ut_jtagCtrl_reset,
    input		    io_cfuClk,
    input		    io_cfuReset,
    input		    cpu0_customInstruction_cmd_valid,
    output		    cpu0_customInstruction_cmd_ready,
    input [9:0]     cpu0_customInstruction_function_id,
    input [31:0]    cpu0_customInstruction_inputs_0,
    input [31:0]    cpu0_customInstruction_inputs_1,
    output		    cpu0_customInstruction_rsp_valid,
    input		    cpu0_customInstruction_rsp_ready,
    output [31:0]   cpu0_customInstruction_outputs_0,
    input		    cpu1_customInstruction_cmd_valid,
    output		    cpu1_customInstruction_cmd_ready,
    input [9:0]     cpu1_customInstruction_function_id,
    input [31:0]    cpu1_customInstruction_inputs_0,
    input [31:0]    cpu1_customInstruction_inputs_1,
    output		    cpu1_customInstruction_rsp_valid,
    input		    cpu1_customInstruction_rsp_ready,
    output [31:0]   cpu1_customInstruction_outputs_0,
    input		    cpu2_customInstruction_cmd_valid,
    output		    cpu2_customInstruction_cmd_ready,
    input [9:0]     cpu2_customInstruction_function_id,
    input [31:0]    cpu2_customInstruction_inputs_0,
    input [31:0]    cpu2_customInstruction_inputs_1,
    output		    cpu2_customInstruction_rsp_valid,
    input		    cpu2_customInstruction_rsp_ready,
    output [31:0]   cpu2_customInstruction_outputs_0,
    input		    cpu3_customInstruction_cmd_valid,
    output		    cpu3_customInstruction_cmd_ready,
    input [9:0]     cpu3_customInstruction_function_id,
    input [31:0]    cpu3_customInstruction_inputs_0,
    input [31:0]    cpu3_customInstruction_inputs_1,
    output		    cpu3_customInstruction_rsp_valid,
    input		    cpu3_customInstruction_rsp_ready,
    output [31:0]   cpu3_customInstruction_outputs_0,
    output		    io_ddrMasters_0_aw_valid,
    input		    io_ddrMasters_0_aw_ready,
    output [31:0]   io_ddrMasters_0_aw_payload_addr,
    output [3:0]    io_ddrMasters_0_aw_payload_id,
    output [3:0]    io_ddrMasters_0_aw_payload_region,
    output [7:0]    io_ddrMasters_0_aw_payload_len,
    output [2:0]    io_ddrMasters_0_aw_payload_size,
    output [1:0]    io_ddrMasters_0_aw_payload_burst,
    output		    io_ddrMasters_0_aw_payload_lock,
    output [3:0]    io_ddrMasters_0_aw_payload_cache,
    output [3:0]    io_ddrMasters_0_aw_payload_qos,
    output [2:0]    io_ddrMasters_0_aw_payload_prot,
    output		    io_ddrMasters_0_aw_payload_allStrb,
    output		    io_ddrMasters_0_w_valid,
    input		    io_ddrMasters_0_w_ready,
    output [127:0]  io_ddrMasters_0_w_payload_data,
    output [15:0]   io_ddrMasters_0_w_payload_strb,
    output		    io_ddrMasters_0_w_payload_last,
    input		    io_ddrMasters_0_b_valid,
    output		    io_ddrMasters_0_b_ready,
    input [3:0]     io_ddrMasters_0_b_payload_id,
    input [1:0]     io_ddrMasters_0_b_payload_resp,
    output		    io_ddrMasters_0_ar_valid,
    input		    io_ddrMasters_0_ar_ready,
    output [31:0]   io_ddrMasters_0_ar_payload_addr,
    output [3:0]    io_ddrMasters_0_ar_payload_id,
    output [3:0]    io_ddrMasters_0_ar_payload_region,
    output [7:0]    io_ddrMasters_0_ar_payload_len,
    output [2:0]    io_ddrMasters_0_ar_payload_size,
    output [1:0]    io_ddrMasters_0_ar_payload_burst,
    output		    io_ddrMasters_0_ar_payload_lock,
    output [3:0]    io_ddrMasters_0_ar_payload_cache,
    output [3:0]    io_ddrMasters_0_ar_payload_qos,
    output [2:0]    io_ddrMasters_0_ar_payload_prot,
    input		    io_ddrMasters_0_r_valid,
    output		    io_ddrMasters_0_r_ready,
    input [127:0]   io_ddrMasters_0_r_payload_data,
    input [3:0]     io_ddrMasters_0_r_payload_id,
    input [1:0]     io_ddrMasters_0_r_payload_resp,
    input		    io_ddrMasters_0_r_payload_last,
    input		    io_ddrMasters_0_clk,
    input		    io_ddrMasters_0_reset,
    output          io_ddrMasters_memCheck_pass,
    output		    userInterruptA,
    output		    userInterruptB,
    output		    userInterruptC,
    output		    userInterruptD,
    output		    userInterruptE,
    output		    userInterruptF,
    output		    userInterruptH,
    output		    userInterruptG,
    output          userInterruptI,
    input [3:0]     system_gpio_0_io_read,
    output [3:0]    system_gpio_0_io_write,
    output [3:0]    system_gpio_0_io_writeEnable,
    output		    system_uart_0_io_txd,
    input		    system_uart_0_io_rxd,
    output		    system_spi_0_io_sclk_write,
    output		    system_spi_0_io_data_0_writeEnable,
    input		    system_spi_0_io_data_0_read,
    output		    system_spi_0_io_data_0_write,
    output		    system_spi_0_io_data_1_writeEnable,
    input		    system_spi_0_io_data_1_read,
    output		    system_spi_0_io_data_1_write,
    output		    system_spi_0_io_data_2_writeEnable,
    input		    system_spi_0_io_data_2_read,
    output		    system_spi_0_io_data_2_write,
    output		    system_spi_0_io_data_3_writeEnable,
    input		    system_spi_0_io_data_3_read,
    output		    system_spi_0_io_data_3_write,
    output [3:0]    system_spi_0_io_ss,
    output		    system_i2c_0_io_sda_writeEnable,
    output		    system_i2c_0_io_sda_write,
    input		    system_i2c_0_io_sda_read,
    output		    system_i2c_0_io_scl_writeEnable,
    output		    system_i2c_0_io_scl_write,
    input		    system_i2c_0_io_scl_read,
    input [31:0]    axiA_awaddr,
    input [7:0]	    axiA_awlen,
    input [2:0]	    axiA_awsize,
    input [1:0]	    axiA_awburst,
    input		    axiA_awlock,
    input [3:0]	    axiA_awcache,
    input [2:0]	    axiA_awprot,
    input [3:0]	    axiA_awqos,
    input [3:0]	    axiA_awregion,
    input		    axiA_awvalid,
    output		    axiA_awready,
    input [31:0]    axiA_wdata,
    input [3:0]     axiA_wstrb,
    input		    axiA_wvalid,
    input		    axiA_wlast,
    output		    axiA_wready,
    output [1:0]    axiA_bresp,
    output		    axiA_bvalid,
    input		    axiA_bready,
    input [31:0]    axiA_araddr,
    input [7:0]	    axiA_arlen,
    input [2:0]	    axiA_arsize,
    input [1:0]	    axiA_arburst,
    input		    axiA_arlock,
    input [3:0]	    axiA_arcache,
    input [2:0]	    axiA_arprot,
    input [3:0]	    axiA_arqos,
    input [3:0]	    axiA_arregion,
    input		    axiA_arvalid,
    output		    axiA_arready,
    output [31:0]   axiA_rdata,
    output [1:0]    axiA_rresp,
    output		    axiA_rlast,
    output		    axiA_rvalid,
    input		    axiA_rready,
    output          axiAInterrupt,
    input           cfg_done,
    output          cfg_start,
    output          cfg_sel,
    output          cfg_reset,
    input		    io_peripheralClk,
    input           io_peripheralReset,
    output          io_asyncReset,
    input           io_gpio_sw_n, 
    input           pll_peripheral_locked,
    input           pll_system_locked,
    input           pll_tse_locked,
    //  SDHC
    input           sd_base_clk, 
    output          sd_clk_hi,
    output          sd_clk_lo,
    input           sd_cmd_i,
    output          sd_cmd_o,
    output          sd_cmd_oe,
    input  [3:0]    sd_dat_i,
    output [3:0]    sd_dat_o,
    output [3:0]    sd_dat_oe,
    input           sd_cd_n, 
    input           sd_wp,
    // TSEMAC
    input           io_tseClk,
    // MAC 
    output [3:0]    rgmii_txd_HI,
    output [3:0]    rgmii_txd_LO,
    output          rgmii_tx_ctl_HI,
    output          rgmii_tx_ctl_LO,
    output          rgmii_txc_HI,
    output          rgmii_txc_LO,
    input  [3:0]    rgmii_rxd_HI,
    input  [3:0]    rgmii_rxd_LO,
    input           rgmii_rx_ctl_HI,
    input           rgmii_rx_ctl_LO,
    input           mux_clk,
    output [1:0]    mux_clk_sw,
    // PHY
    output          phy_rst,
    input           phy_mdi,
    output          phy_mdo,
    output          phy_mdo_en,
    output          phy_mdc,
    input           rgmii_rxc,      
    input           rgmii_rxc_slow
 );
 top_soc u_top_soc (
    .jtagCtrl_tdi       (jtagCtrl_tdi),
    .jtagCtrl_tdo    (jtagCtrl_tdo),
    .jtagCtrl_enable (jtagCtrl_enable),
    .jtagCtrl_capture    (jtagCtrl_capture),
    .jtagCtrl_shift  (jtagCtrl_shift),
    .jtagCtrl_update (jtagCtrl_update),
    .jtagCtrl_reset  (jtagCtrl_reset),
    .ut_jtagCtrl_tdi (ut_jtagCtrl_tdi),
    .ut_jtagCtrl_tdo (ut_jtagCtrl_tdo),
    .ut_jtagCtrl_enable  (ut_jtagCtrl_enable),
    .ut_jtagCtrl_capture (ut_jtagCtrl_capture),
    .ut_jtagCtrl_shift   (ut_jtagCtrl_shift),
    .ut_jtagCtrl_update  (ut_jtagCtrl_update),
    .ut_jtagCtrl_reset   (ut_jtagCtrl_reset),
    .io_cfuClk   (io_cfuClk),
    .io_cfuReset (io_cfuReset),
    .io_ddrMasters_0_aw_valid           (io_ddrMasters_0_aw_valid),
    .io_ddrMasters_0_aw_ready           (io_ddrMasters_0_aw_ready),
    .io_ddrMasters_0_aw_payload_addr    (io_ddrMasters_0_aw_payload_addr),
    .io_ddrMasters_0_aw_payload_id      (io_ddrMasters_0_aw_payload_id),
    .io_ddrMasters_0_aw_payload_region  (io_ddrMasters_0_aw_payload_region),
    .io_ddrMasters_0_aw_payload_len     (io_ddrMasters_0_aw_payload_len),
    .io_ddrMasters_0_aw_payload_size    (io_ddrMasters_0_aw_payload_size),
    .io_ddrMasters_0_aw_payload_burst   (io_ddrMasters_0_aw_payload_burst),
    .io_ddrMasters_0_aw_payload_lock    (io_ddrMasters_0_aw_payload_lock),
    .io_ddrMasters_0_aw_payload_cache   (io_ddrMasters_0_aw_payload_cache),
    .io_ddrMasters_0_aw_payload_qos     (io_ddrMasters_0_aw_payload_qos),
    .io_ddrMasters_0_aw_payload_prot    (io_ddrMasters_0_aw_payload_prot),
    .io_ddrMasters_0_aw_payload_allStrb (io_ddrMasters_0_aw_payload_allStrb),
    .io_ddrMasters_0_w_valid            (io_ddrMasters_0_w_valid),
    .io_ddrMasters_0_w_ready            (io_ddrMasters_0_w_ready),
    .io_ddrMasters_0_w_payload_data     (io_ddrMasters_0_w_payload_data),
    .io_ddrMasters_0_w_payload_strb     (io_ddrMasters_0_w_payload_strb),
    .io_ddrMasters_0_w_payload_last     (io_ddrMasters_0_w_payload_last),
    .io_ddrMasters_0_b_valid            (io_ddrMasters_0_b_valid),
    .io_ddrMasters_0_b_ready            (io_ddrMasters_0_b_ready),
    .io_ddrMasters_0_b_payload_id       (io_ddrMasters_0_b_payload_id),
    .io_ddrMasters_0_b_payload_resp     (io_ddrMasters_0_b_payload_resp),
    .io_ddrMasters_0_ar_valid           (io_ddrMasters_0_ar_valid),
    .io_ddrMasters_0_ar_ready           (io_ddrMasters_0_ar_ready),
    .io_ddrMasters_0_ar_payload_addr    (io_ddrMasters_0_ar_payload_addr),
    .io_ddrMasters_0_ar_payload_id      (io_ddrMasters_0_ar_payload_id),
    .io_ddrMasters_0_ar_payload_region  (io_ddrMasters_0_ar_payload_region),
    .io_ddrMasters_0_ar_payload_len     (io_ddrMasters_0_ar_payload_len),
    .io_ddrMasters_0_ar_payload_size    (io_ddrMasters_0_ar_payload_size),
    .io_ddrMasters_0_ar_payload_burst   (io_ddrMasters_0_ar_payload_burst),
    .io_ddrMasters_0_ar_payload_lock    (io_ddrMasters_0_ar_payload_lock),
    .io_ddrMasters_0_ar_payload_cache   (io_ddrMasters_0_ar_payload_cache),
    .io_ddrMasters_0_ar_payload_qos     (io_ddrMasters_0_ar_payload_qos),
    .io_ddrMasters_0_ar_payload_prot    (io_ddrMasters_0_ar_payload_prot),
    .io_ddrMasters_0_r_valid            (io_ddrMasters_0_r_valid),
    .io_ddrMasters_0_r_ready            (io_ddrMasters_0_r_ready),
    .io_ddrMasters_0_r_payload_data     (io_ddrMasters_0_r_payload_data),
    .io_ddrMasters_0_r_payload_id       (io_ddrMasters_0_r_payload_id),
    .io_ddrMasters_0_r_payload_resp     (io_ddrMasters_0_r_payload_resp),
    .io_ddrMasters_0_r_payload_last     (io_ddrMasters_0_r_payload_last),
    .io_ddrMasters_0_clk                (io_ddrMasters_0_clk),
    .io_ddrMasters_0_reset              (io_ddrMasters_0_reset),
    .io_ddrMasters_memCheck_pass        (io_ddrMasters_memCheck_pass),
    .userInterruptA                     (userInterruptA),
    .userInterruptB                     (userInterruptB),
    .userInterruptC                     (userInterruptC),
    .userInterruptD                     (userInterruptD),
    .userInterruptE                     (userInterruptE),
    .userInterruptF                     (userInterruptF),
    .userInterruptH                     (userInterruptH),
    .userInterruptG                     (userInterruptG),
    .userInterruptI                     (userInterruptI),
    .system_gpio_0_io_read              (system_gpio_0_io_read),
    .system_gpio_0_io_write             (system_gpio_0_io_write),
    .system_gpio_0_io_writeEnable       (system_gpio_0_io_writeEnable),
    .system_uart_0_io_txd               (system_uart_0_io_txd),
    .system_uart_0_io_rxd               (system_uart_0_io_rxd),
    .system_spi_0_io_sclk_write         (system_spi_0_io_sclk_write),
    .system_spi_0_io_data_0_writeEnable (system_spi_0_io_data_0_writeEnable),
    .system_spi_0_io_data_0_read        (system_spi_0_io_data_0_read),
    .system_spi_0_io_data_0_write       (system_spi_0_io_data_0_write),
    .system_spi_0_io_data_1_writeEnable (system_spi_0_io_data_1_writeEnable),
    .system_spi_0_io_data_1_read        (system_spi_0_io_data_1_read),
    .system_spi_0_io_data_1_write       (system_spi_0_io_data_1_write),
    .system_spi_0_io_data_2_writeEnable (system_spi_0_io_data_2_writeEnable),
    .system_spi_0_io_data_2_read        (system_spi_0_io_data_2_read),
    .system_spi_0_io_data_2_write       (system_spi_0_io_data_2_write),
    .system_spi_0_io_data_3_writeEnable (system_spi_0_io_data_3_writeEnable),
    .system_spi_0_io_data_3_read        (system_spi_0_io_data_3_read),
    .system_spi_0_io_data_3_write       (system_spi_0_io_data_3_write),
    .system_spi_0_io_ss                 (system_spi_0_io_ss),
    .system_i2c_0_io_sda_writeEnable    (system_i2c_0_io_sda_writeEnable),
    .system_i2c_0_io_sda_write          (system_i2c_0_io_sda_write),
    .system_i2c_0_io_sda_read           (system_i2c_0_io_sda_read),
    .system_i2c_0_io_scl_writeEnable    (system_i2c_0_io_scl_writeEnable),
    .system_i2c_0_io_scl_write          (system_i2c_0_io_scl_write),
    .system_i2c_0_io_scl_read           (system_i2c_0_io_scl_read),
    .axiA_awaddr                        (axiA_awaddr),
    .axiA_awlen                         (axiA_awlen),
    .axiA_awsize                        (axiA_awsize),
    .axiA_awburst                       (axiA_awburst),
    .axiA_awlock                        (axiA_awlock),
    .axiA_awcache                       (axiA_awcache),
    .axiA_awprot                        (axiA_awprot),
    .axiA_awqos                         (axiA_awqos),
    .axiA_awregion                      (axiA_awregion),
    .axiA_awvalid                       (axiA_awvalid),
    .axiA_awready                       (axiA_awready),
    .axiA_wdata                         (axiA_wdata),
    .axiA_wstrb                         (axiA_wstrb),
    .axiA_wvalid                        (axiA_wvalid),
    .axiA_wlast                         (axiA_wlast),
    .axiA_wready                        (axiA_wready),
    .axiA_bresp                         (axiA_bresp),
    .axiA_bvalid                        (axiA_bvalid),
    .axiA_bready                        (axiA_bready),
    .axiA_araddr                        (axiA_araddr),
    .axiA_arlen                         (axiA_arlen),
    .axiA_arsize                        (axiA_arsize),
    .axiA_arburst                       (axiA_arburst),
    .axiA_arlock                        (axiA_arlock),
    .axiA_arcache                       (axiA_arcache),
    .axiA_arprot                        (axiA_arprot),
    .axiA_arqos                         (axiA_arqos),
    .axiA_arregion                      (axiA_arregion),
    .axiA_arvalid                       (axiA_arvalid),
    .axiA_arready                       (axiA_arready),
    .axiA_rdata                         (axiA_rdata),
    .axiA_rresp                         (axiA_rresp),
    .axiA_rlast                         (axiA_rlast),
    .axiA_rvalid                        (axiA_rvalid),
    .axiA_rready                        (axiA_rready),
    .axiAInterrupt                      (axiAInterrupt),
    .cfg_done                           (cfg_done),
    .cfg_start                          (cfg_start),
    .cfg_sel                            (cfg_sel),
    .cfg_reset                          (cfg_reset),
    .io_peripheralClk                   (io_peripheralClk),
    .io_peripheralReset                 (io_peripheralReset),
    .io_asyncReset                      (io_asyncReset),
    .io_gpio_sw_n                       (io_gpio_sw_n),
    .pll_peripheral_locked              (pll_peripheral_locked),
    .pll_system_locked                  (pll_system_locked),
    .pll_tse_locked                     (pll_tse_locked),
    .sd_base_clk                        (sd_base_clk), 
    .sd_clk_hi                          (sd_clk_hi),
    .sd_clk_lo                          (sd_clk_lo),
    .sd_cmd_i                           (sd_cmd_i),
    .sd_cmd_o                           (sd_cmd_o),
    .sd_cmd_oe                          (sd_cmd_oe),
    .sd_dat_i                           (sd_dat_i),
    .sd_dat_o                           (sd_dat_o),
    .sd_dat_oe                          (sd_dat_oe),
    .sd_cd_n                            (sd_cd_n), 
    .sd_wp                              (sd_wp),
    .io_tseClk                          (io_tseClk),
    .rgmii_txd_HI                       (rgmii_txd_HI),
    .rgmii_txd_LO                       (rgmii_txd_LO),
    .rgmii_tx_ctl_HI                    (rgmii_tx_ctl_HI),
    .rgmii_tx_ctl_LO                    (rgmii_tx_ctl_LO),
    .rgmii_txc_HI                       (rgmii_txc_HI),
    .rgmii_txc_LO                       (rgmii_txc_LO),
    .rgmii_rxd_HI                       (rgmii_rxd_HI),
    .rgmii_rxd_LO                       (rgmii_rxd_LO),
    .rgmii_rx_ctl_HI                    (rgmii_rx_ctl_HI),
    .rgmii_rx_ctl_LO                    (rgmii_rx_ctl_LO),
    .mux_clk                            (mux_clk),
    .mux_clk_sw                         (mux_clk_sw),
    .phy_rst                            (phy_rst),
    .phy_mdi                            (phy_mdi),
    .phy_mdo                            (phy_mdo),
    .phy_mdo_en                         (phy_mdo_en),
    .phy_mdc                            (phy_mdc),
    .rgmii_rxc                          (rgmii_rxc),
    .rgmii_rxc_slow                     (rgmii_rxc_slow)
 );
 endmodule
--- a/src/original_core/ALU.v
+++ b/src/original_core/ALU.v
--- a/src/original_core/cpu_65c02.v
+++ b/src/original_core/cpu_65c02.v
--- a/src/sources.list
+++ b/src/sources.list
@@ -1,11 +1,11 @@
-regs/verilog6502_io_regs_pkg.sv
+embedded_wrapper/regs/verilog6502_io_regs_pkg.sv
-regs/verilog6502_io_regs.sv
+embedded_wrapper/regs/verilog6502_io_regs.sv
-verilog6502_addr_decoder.sv
+embedded_wrapper/verilog6502_addr_decoder.sv
-verilog6502_internal_memory.sv
+embedded_wrapper/verilog6502_internal_memory.sv
-verilog6502_apb_adapter.sv
+embedded_wrapper/verilog6502_apb_adapter.sv
-verilog6502_external_memory.sv
+embedded_wrapper/verilog6502_external_memory.sv
-verilog6502_wrapper.sv
+embedded_wrapper/verilog6502_embedded_wrapper.sv
-ALU.v
+original_core/ALU.v
-cpu_65c02.v
+original_core/cpu_65c02.v
Author	SHA1	Message	Date
Byron Lathi	aa8c4a64df	First shot at happy path	2026-05-22 23:54:33 -07:00
Byron Lathi	df25550c8a	Add cache arrays and test	2026-05-22 22:27:53 -07:00
Byron Lathi	3ea31e40aa	Last commit before I nuke it	2026-05-22 09:10:19 -07:00
Byron Lathi	8fd83c2563	Get it to kinda work	2026-05-19 19:57:15 -07:00
Byron Lathi	62a3408eb7	Add some stuff related to cache	2026-05-16 16:55:21 -07:00
Byron Lathi	042d7724ff	Move everything around	2026-05-09 16:03:57 -07:00
		`@@ -0,0 +1 @@`
							`../../../src/application_wrapper/sources.list`
		`@@ -0,0 +1,3 @@`
							`module application_wrapper_top();`

							`endmodule`