def bench_fifo_ramp():
tbdut = fifo_ramp(glbl, regbus, fifobus, base_address=0x0000)
tbrbor = regbus.interconnect()
tbclk = clock.gen()
asserr = Signal(bool(0))
@instance
def tbstim():
print("start fifo ramp test")
try:
yield delay(100)
yield reset.pulse(111)
# verify an incrementing pattern over the fifobus
yield regbus.writetrans(0x07, 2) # div of two
yield regbus.readtrans(0x07)
assert 2 == regbus.get_read_data()
yield regbus.writetrans(0x00, 1) # enable
yield regbus.readtrans(0x00)
assert 1 == regbus.get_read_data(), "cfg reg write failed"
# monitor the bus until ?? ramps
Nramps, rr, timeout = 128, 0, 0
while rr < Nramps and timeout < (20*Nramps):
cnt = 0
for ii, sh in enumerate((24, 16, 8, 0,)):
yield delay(1000)
yield regbus.readtrans(0x08+ii)
cntpart = regbus.get_read_data()
cnt = cnt | (cntpart << sh)
print("{:<8d}: ramp count[{:<4d}, {:d}]: {:08X}, {:02X} - timeout {:d}".format(
now(), rr, ii, cnt, cntpart, timeout))
timeout += 1
# @todo: add ramp check
if cnt != rr or (timeout % 1000) == 0:
print(" ramp {} {}".format(int(cnt), int(rr),))
rr = int(cnt)
print("{}, {}, {}".format(Nramps, rr, timeout))
except AssertionError as err:
asserr.next = True
for _ in range(10):
yield clock.posedge
raise err
raise StopSimulation
# monitor the values from the fifo bus, it should
# be a simple "ramp" increasing values
_mask = 0xFF
_cval = Signal(modbv(0, min=0, max=256))
@always(clock.posedge)
def tbmon():
if fifobus.write:
assert _cval == fifobus.write_data
_cval.next = _cval+1
return tbclk, tbdut, tbstim, tbmon, tbrbor
def _test_fifo_ramp():
tb_dut = fifo_ramp(clock, reset, regbus, fifobus, base_address=0x0000)
tb_rbor = regbus.m_per_outputs()
tb_clk = clock.gen()
asserr = Signal(bool(0))
@instance
def tb_stim():
try:
yield delay(100)
yield reset.pulse(111)
# simply enable, enable the module and then
# verify an incrementing pattern over the
# fifobus
yield regbus.write(0x00, 1)
yield regbus.read(0x00)
assert 1 == regbus.get_read_data(), "cfg reg write failed"
# monitor the bus until ?? ramps
Nramps, rr = 128, 0
while rr < Nramps:
cnt = 0
for ii, sh in enumerate((24, 16, 8, 0)):
yield regbus.read(0x08 + ii)
cnt = cnt | (regbus.get_read_data() << sh)
rr = cnt
except AssertionError as err:
asserr.next = True
for _ in range(10):
yield clock.posedge
raise err
raise StopSimulation
# monitor the values from the fifo bus, it should
# be a simple "ramp" increasing values
_mask = 0xFF
_cval = Signal(modbv(0, min=0, max=256))
@always(clock.posedge)
def tb_mon():
if fifobus.wr:
assert _cval == fifobus.wdata
_cval.next = _cval + 1
return tb_clk, tb_dut, tb_stim, tb_mon, tb_rbor
def _bench_fifo_ramp():
tbdut = fifo_ramp(clock, reset, regbus, fifobus, base_address=0x0000)
tbrbor = regbus.interconnect()
tbclk = clock.gen()
asserr = Signal(bool(0))
@instance
def tbstim():
print("start fifo ramp test")
try:
yield delay(100)
yield reset.pulse(111)
# verify an incrementing pattern over the fifobus
yield regbus.writetrans(0x07, 2) # div of two
yield regbus.readtrans(0x07)
assert 2 == regbus.get_read_data()
yield regbus.writetrans(0x00, 1) # enable
yield regbus.readtrans(0x00)
assert 1 == regbus.get_read_data(), "cfg reg write failed"
# monitor the bus until ?? ramps
Nramps, rr, timeout = 128, 0, 0
while rr < Nramps and timeout < (20 * Nramps):
cnt = 0
for ii, sh in enumerate((
24,
16,
8,
0,
)):
yield delay(1000)
yield regbus.readtrans(0x08 + ii)
cntpart = regbus.get_read_data()
cnt = cnt | (cntpart << sh)
print(
"{:<8d}: ramp count[{:<4d}, {:d}]: {:08X}, {:02X} - timeout {:d}"
.format(now(), rr, ii, cnt, cntpart, timeout))
timeout += 1
# @todo: add ramp check
if cnt != rr or (timeout % 1000) == 0:
print(" ramp {} {}".format(
int(cnt),
int(rr),
))
rr = int(cnt)
print("{}, {}, {}".format(Nramps, rr, timeout))
except AssertionError as err:
asserr.next = True
for _ in range(10):
yield clock.posedge
raise err
raise StopSimulation
# monitor the values from the fifo bus, it should
# be a simple "ramp" increasing values
_mask = 0xFF
_cval = Signal(modbv(0, min=0, max=256))
@always(clock.posedge)
def tbmon():
if fifobus.write:
assert _cval == fifobus.write_data
_cval.next = _cval + 1
return tbclk, tbdut, tbstim, tbmon, tbrbor
