test: add core.multiplexer._Steerer tests

This commit is contained in:
Jędrzej Boczar 2020-03-30 13:16:03 +02:00
parent f36b5a4fd2
commit 26ce99320e
1 changed files with 239 additions and 15 deletions

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@ -9,25 +9,33 @@ from litex.gen.sim import run_simulation
from litex.soc.interconnect import stream from litex.soc.interconnect import stream
from litedram.common import * from litedram.common import *
from litedram.phy import dfi
from litedram.core.multiplexer import _CommandChooser, _Steerer, Multiplexer from litedram.core.multiplexer import _CommandChooser, _Steerer, Multiplexer
from litedram.core.multiplexer import STEER_NOP, STEER_CMD, STEER_REQ, STEER_REFRESH
class CmdRequestRWDriver: class CmdRequestRWDriver:
def __init__(self, req): def __init__(self, req, i=0, ep_layout=True, rw_layout=True):
self.req = req self.req = req
self.rw_layout = rw_layout
self.ep_layout = ep_layout
self.bank = 0 # used to distinguish commands
self.row = 0 self.bank = i
self.col = 0 self.row = i
self.col = i
def _drive(self, **kwargs): def _drive(self, **kwargs):
signals = [ signals = ["a", "ba", "cas", "ras", "we",]
"valid", "first", "last", if self.rw_layout:
"a", "ba", "cas", "ras", "we", signals += ["is_cmd", "is_read", "is_write"]
"is_cmd", "is_read", "is_write" if self.ep_layout:
] signals += ["valid", "first", "last"]
for s in signals: for s in signals:
yield getattr(self.req, s).eq(kwargs.get(s, 0)) yield getattr(self.req, s).eq(kwargs.get(s, 0))
# drive ba even for nop
if "ba" not in kwargs:
yield self.req.ba.eq(self.bank)
def activate(self): def activate(self):
yield from self._drive(valid=1, is_cmd=1, ras=1, a=self.row, ba=self.bank) yield from self._drive(valid=1, is_cmd=1, ras=1, a=self.row, ba=self.bank)
@ -36,6 +44,9 @@ class CmdRequestRWDriver:
a = 0 if not all_banks else (1 << 10) a = 0 if not all_banks else (1 << 10)
yield from self._drive(valid=1, is_cmd=1, ras=1, we=1, a=a, ba=self.bank) yield from self._drive(valid=1, is_cmd=1, ras=1, we=1, a=a, ba=self.bank)
def refresh(self):
yield from self._drive(valid=1, is_cmd=1, cas=1, ras=1, ba=self.bank)
def write(self, auto_precharge=False): def write(self, auto_precharge=False):
assert not (self.col & (1 << 10)) assert not (self.col & (1 << 10))
col = self.col | (1 << 10) if auto_precharge else self.col col = self.col | (1 << 10) if auto_precharge else self.col
@ -49,6 +60,7 @@ class CmdRequestRWDriver:
def nop(self): def nop(self):
yield from self._drive() yield from self._drive()
# _CommandChooser ----------------------------------------------------------------------------------
class CommandChooserDUT(Module): class CommandChooserDUT(Module):
def __init__(self, n_requests, addressbits, bankbits): def __init__(self, n_requests, addressbits, bankbits):
@ -56,12 +68,7 @@ class CommandChooserDUT(Module):
for _ in range(n_requests)] for _ in range(n_requests)]
self.submodules.chooser = _CommandChooser(self.requests) self.submodules.chooser = _CommandChooser(self.requests)
self.drivers = [CmdRequestRWDriver(req) for req in self.requests] self.drivers = [CmdRequestRWDriver(req, i) for i, req in enumerate(self.requests)]
# set known a/ba to easly distinguish currently connected request
for i, driver in enumerate(self.drivers):
driver.bank = i
driver.row = i
driver.col = i
def set_requests(self, description): def set_requests(self, description):
assert len(description) == len(self.drivers) assert len(description) == len(self.drivers)
@ -265,3 +272,220 @@ class TestCommandChooser(unittest.TestCase):
requests = "pr_aa_pw" requests = "pr_aa_pw"
order = "0670670" order = "0670670"
self.selection_test(requests, order, wants=["want_cmds", "want_writes"]) self.selection_test(requests, order, wants=["want_cmds", "want_writes"])
# _Steerer -----------------------------------------------------------------------------------------
class SteererDUT(Module):
def __init__(self, nranks, databits, nphases):
a, ba = 13, 3
nop = Record(cmd_request_layout(a=a, ba=ba))
choose_cmd = stream.Endpoint(cmd_request_rw_layout(a=a, ba=ba))
choose_req = stream.Endpoint(cmd_request_rw_layout(a=a, ba=ba))
refresher_cmd = stream.Endpoint(cmd_request_rw_layout(a=a, ba=ba))
self.commands = [nop, choose_cmd, choose_req, refresher_cmd]
self.dfi = dfi.Interface(addressbits=a, bankbits=ba, nranks=nranks, databits=databits,
nphases=nphases)
self.submodules.steerer = _Steerer(self.commands, self.dfi)
# nop is not an endpoint and does not have is_* signals
self.drivers = [CmdRequestRWDriver(req, i, ep_layout=i != 0, rw_layout=i != 0)
for i, req in enumerate(self.commands)]
class TestSteerer(unittest.TestCase):
def test_nop_not_valid(self):
def main_generator(dut):
# nop on both phases
yield dut.steerer.sel[0].eq(STEER_NOP)
yield dut.steerer.sel[1].eq(STEER_NOP)
yield from dut.drivers[0].nop()
yield
for i in range(2):
cas_n = (yield dut.dfi.phases[i].cas_n)
ras_n = (yield dut.dfi.phases[i].ras_n)
we_n = (yield dut.dfi.phases[i].we_n)
# nop should have cas_n/ras_n/we_n = (1, 1, 1)
self.assertEqual((cas_n, ras_n, we_n), (1, 1, 1))
dut = SteererDUT(nranks=2, databits=16, nphases=2)
run_simulation(dut, main_generator(dut))
def test_connect_only_if_valid_and_ready(self):
def main_generator(dut):
# set possible requests
yield from dut.drivers[STEER_NOP].nop()
yield from dut.drivers[STEER_CMD].activate()
yield from dut.drivers[STEER_REQ].write()
yield from dut.drivers[STEER_REFRESH].refresh()
# set how phases are steered
yield dut.steerer.sel[0].eq(STEER_CMD)
yield dut.steerer.sel[1].eq(STEER_NOP)
yield
yield
def check(is_ready):
# cmd on phase 0 should be STEER_CMD=activate
p = dut.dfi.phases[0]
self.assertEqual((yield p.bank), STEER_CMD)
self.assertEqual((yield p.address), STEER_CMD)
if is_ready:
self.assertEqual((yield p.cas_n), 1)
self.assertEqual((yield p.ras_n), 0)
self.assertEqual((yield p.we_n), 1)
else: # not steered
self.assertEqual((yield p.cas_n), 1)
self.assertEqual((yield p.ras_n), 1)
self.assertEqual((yield p.we_n), 1)
# nop on phase 1 should be STEER_NOP
p = dut.dfi.phases[1]
self.assertEqual((yield p.cas_n), 1)
self.assertEqual((yield p.ras_n), 1)
self.assertEqual((yield p.we_n), 1)
yield from check(is_ready=False)
yield dut.commands[STEER_CMD].ready.eq(1)
yield
yield
yield from check(is_ready=True)
dut = SteererDUT(nranks=2, databits=16, nphases=2)
run_simulation(dut, main_generator(dut))
def test_no_decode_ba_signle_rank(self):
def main_generator(dut):
yield from dut.drivers[STEER_NOP].nop()
yield from dut.drivers[STEER_REQ].write()
yield from dut.drivers[STEER_REFRESH].refresh()
# all the bits are for bank
dut.drivers[STEER_CMD].bank = 0b110
yield from dut.drivers[STEER_CMD].activate()
yield dut.commands[STEER_CMD].ready.eq(1)
# set how phases are steered
yield dut.steerer.sel[0].eq(STEER_NOP)
yield dut.steerer.sel[1].eq(STEER_CMD)
yield
yield
p = dut.dfi.phases[1]
self.assertEqual((yield p.cas_n), 1)
self.assertEqual((yield p.ras_n), 0)
self.assertEqual((yield p.we_n), 1)
self.assertEqual((yield p.address), STEER_CMD)
self.assertEqual((yield p.bank), 0b110)
self.assertEqual((yield p.cs_n), 0)
dut = SteererDUT(nranks=1, databits=16, nphases=2)
run_simulation(dut, main_generator(dut))
def test_decode_ba_multiple_ranks(self):
def main_generator(dut):
yield from dut.drivers[STEER_NOP].nop()
yield from dut.drivers[STEER_REQ].write()
yield from dut.drivers[STEER_REFRESH].refresh()
# set how phases are steered
yield dut.steerer.sel[0].eq(STEER_NOP)
yield dut.steerer.sel[1].eq(STEER_CMD)
variants = [
# ba, phase.bank, phase.cs_n
(0b110, 0b10, 0b01), # rank=1 -> cs=0b10 -> cs_n=0b01
(0b101, 0b01, 0b01), # rank=1 -> cs=0b10 -> cs_n=0b01
(0b001, 0b01, 0b10), # rank=0 -> cs=0b01 -> cs_n=0b10
]
for ba, phase_bank, phase_cs_n in variants:
with self.subTest(ba=ba):
# 1 bit for rank, 2 bits for bank
dut.drivers[STEER_CMD].bank = ba
yield from dut.drivers[STEER_CMD].activate()
yield dut.commands[STEER_CMD].ready.eq(1)
yield
yield
p = dut.dfi.phases[1]
self.assertEqual((yield p.cas_n), 1)
self.assertEqual((yield p.ras_n), 0)
self.assertEqual((yield p.we_n), 1)
self.assertEqual((yield p.bank), phase_bank)
self.assertEqual((yield p.cs_n), phase_cs_n)
dut = SteererDUT(nranks=2, databits=16, nphases=2)
run_simulation(dut, main_generator(dut))
def test_select_all_ranks_on_refresh(self):
def main_generator(dut):
yield from dut.drivers[STEER_NOP].nop()
yield from dut.drivers[STEER_REQ].write()
yield from dut.drivers[STEER_CMD].activate()
# set how phases are steered
yield dut.steerer.sel[0].eq(STEER_REFRESH)
yield dut.steerer.sel[1].eq(STEER_NOP)
variants = [
# ba, phase.bank, phase.cs_n (always all enabled)
(0b110, 0b10, 0b00),
(0b101, 0b01, 0b00),
(0b001, 0b01, 0b00),
]
for ba, phase_bank, phase_cs_n in variants:
with self.subTest(ba=ba):
# 1 bit for rank, 2 bits for bank
dut.drivers[STEER_REFRESH].bank = ba
yield from dut.drivers[STEER_REFRESH].refresh()
yield dut.commands[STEER_REFRESH].ready.eq(1)
yield
yield
p = dut.dfi.phases[0]
self.assertEqual((yield p.cas_n), 0)
self.assertEqual((yield p.ras_n), 0)
self.assertEqual((yield p.we_n), 1)
self.assertEqual((yield p.bank), phase_bank)
self.assertEqual((yield p.cs_n), phase_cs_n)
dut = SteererDUT(nranks=2, databits=16, nphases=2)
run_simulation(dut, main_generator(dut))
def test_reset_n_high(self):
def main_generator(dut):
yield dut.steerer.sel[0].eq(STEER_CMD)
yield dut.steerer.sel[1].eq(STEER_NOP)
yield
self.assertEqual((yield dut.dfi.phases[0].reset_n), 1)
self.assertEqual((yield dut.dfi.phases[1].reset_n), 1)
self.assertEqual((yield dut.dfi.phases[2].reset_n), 1)
self.assertEqual((yield dut.dfi.phases[3].reset_n), 1)
dut = SteererDUT(nranks=2, databits=16, nphases=4)
run_simulation(dut, main_generator(dut))
def test_cke_high_all_ranks(self):
def main_generator(dut):
yield dut.steerer.sel[0].eq(STEER_CMD)
yield dut.steerer.sel[1].eq(STEER_NOP)
yield
self.assertEqual((yield dut.dfi.phases[0].cke), 0b11)
self.assertEqual((yield dut.dfi.phases[1].cke), 0b11)
self.assertEqual((yield dut.dfi.phases[2].cke), 0b11)
self.assertEqual((yield dut.dfi.phases[3].cke), 0b11)
dut = SteererDUT(nranks=2, databits=16, nphases=4)
run_simulation(dut, main_generator(dut))
def test_odt_high_all_ranks(self):
def main_generator(dut):
yield dut.steerer.sel[0].eq(STEER_CMD)
yield dut.steerer.sel[1].eq(STEER_NOP)
yield
self.assertEqual((yield dut.dfi.phases[0].odt), 0b11)
self.assertEqual((yield dut.dfi.phases[1].odt), 0b11)
self.assertEqual((yield dut.dfi.phases[2].odt), 0b11)
self.assertEqual((yield dut.dfi.phases[3].odt), 0b11)
dut = SteererDUT(nranks=2, databits=16, nphases=4)
run_simulation(dut, main_generator(dut))