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jesd204_tools: use new syntax from jesd204b core

* requires jesd204b changes as in https://github.com/HarryMakes/jesd204b/tree/gth
This commit is contained in:
Harry Ho 2020-12-16 13:34:43 +08:00 committed by Sebastien Bourdeauducq
parent 1b68906a4f
commit 69cfa8e2e5
1 changed files with 88 additions and 14 deletions

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@ -8,14 +8,19 @@ from misoc.interconnect.csr import *
from jesd204b.common import (JESD204BTransportSettings,
JESD204BPhysicalSettings,
JESD204BSettings)
from jesd204b.phy.gth import GTHChannelPLL as JESD204BGTHChannelPLL
from jesd204b.phy.gth import (GTHChannelPLL as JESD204BGTHChannelPLL,
GTHQuadPLL as JESD204BGTHQuadPLL,
GTHTransmitter as JESD204BGTHTransmitter,
GTHInit as JESD204BGTHInit,
GTHTransmitterInterconnect as JESD204BGTHTransmitterInterconnect)
from jesd204b.phy import JESD204BPhyTX
from jesd204b.core import JESD204BCoreTX
from jesd204b.core import JESD204BCoreTXControl
class UltrascaleCRG(Module, AutoCSR):
linerate = int(6e9)
linerate = int(6e9) # linerate = 20*data_rate*4/8 = data_rate*10
# data_rate = dac_rate/interp_factor
refclk_freq = int(150e6)
fabric_freq = int(125e6)
@ -45,27 +50,96 @@ PhyPads = namedtuple("PhyPads", "txp txn")
class UltrascaleTX(Module, AutoCSR):
def __init__(self, platform, sys_crg, jesd_crg, dac):
def __init__(self, platform, sys_crg, jesd_crg, dac, pll_type="cpll", tx_half=False):
# Note: In general, the choice between channel and quad PLLs can be made based on the "nominal operating ranges", which are (see UG576, Ch.2):
# CPLL: 2.0 - 6.25 GHz
# QPLL0: 9.8 - 16.375 GHz
# QPLL1: 8.0 - 13.0 GHz
# However, the exact frequency and/or linerate range should be checked according to the model and speed grade from their corresponding datasheets.
pll_cls = {
"cpll": JESD204BGTHChannelPLL,
"qpll": JESD204BGTHQuadPLL
}[pll_type]
ps = JESD204BPhysicalSettings(l=8, m=4, n=16, np=16)
ts = JESD204BTransportSettings(f=2, s=2, k=16, cs=0)
settings = JESD204BSettings(ps, ts, did=0x5a, bid=0x5)
jesd_pads = platform.request("dac_jesd", dac)
plls = []
phys = []
for i in range(len(jesd_pads.txp)):
cpll = JESD204BGTHChannelPLL(
pll = pll_cls(
jesd_crg.refclk, jesd_crg.refclk_freq, jesd_crg.linerate)
self.submodules += cpll
self.submodules += pll
plls.append(pll)
# QPLL quads
if pll_type == "qpll":
gthe3_common_cfgs = []
for i in range(0, len(plls), 4):
# GTHE3_COMMON common signals
qpll_clk = Signal()
qpll_refclk = Signal()
qpll_reset = Signal()
qpll_lock = Signal()
# GTHE3_COMMON
self.specials += pll_cls.get_gthe3_common(
jesd_crg.refclk, jesd_crg.refclk_freq, jesd_crg.linerate,
qpll_clk, qpll_refclk, qpll_reset, qpll_lock)
gthe3_common_cfgs.append({
"clk": qpll_clk,
"refclk": qpll_refclk,
"reset": qpll_reset,
"lock": qpll_lock
})
# Per-channel PLL phys
for i, pll in enumerate(plls):
# PhyTX
phy = JESD204BPhyTX(
cpll, PhyPads(jesd_pads.txp[i], jesd_pads.txn[i]),
jesd_crg.fabric_freq, transceiver="gth")
pll, jesd_crg.refclk, PhyPads(jesd_pads.txp[i], jesd_pads.txn[i]),
jesd_crg.fabric_freq, transceiver="gth", tx_half=tx_half)
phys.append(phy)
if tx_half:
platform.add_period_constraint(phy.transmitter.cd_tx_half.clk,
80*1e9/jesd_crg.linerate)
platform.add_false_path_constraints(
sys_crg.cd_sys.clk,
jesd_crg.cd_jesd.clk,
phy.transmitter.cd_tx_half.clk)
else:
platform.add_period_constraint(phy.transmitter.cd_tx.clk,
40*1e9/jesd_crg.linerate)
platform.add_false_path_constraints(
sys_crg.cd_sys.clk,
jesd_crg.cd_jesd.clk,
phy.transmitter.cd_tx.clk)
phys.append(phy)
# CHANNEL & init interconnects
for i, (pll, phy) in enumerate(zip(plls, phys)):
# CPLLs: 1 init per channel
if pll_type == "cpll":
phy_channel_cfg = {}
# Connect reset/lock to init
pll_reset = pll.reset
pll_lock = pll.lock
self.submodules += JESD204BGTHTransmitterInterconnect(
pll_reset, pll_lock, phy.transmitter, phy.transmitter.init)
# QPLL: 4 inits and 4 channels per quad
elif pll_type == "qpll":
# Connect clk/refclk to CHANNEL
phy_cfg = gthe3_common_cfgs[int(i//4)]
phy_channel_cfg = {
"qpll_clk": phy_cfg["clk"],
"qpll_refclk": phy_cfg["refclk"]
}
# Connect reset/lock to init
pll_reset = phy_cfg["reset"]
pll_lock = phy_cfg["lock"]
if i % 4 == 0:
self.submodules += JESD204BGTHTransmitterInterconnect(
pll_reset, pll_lock, phy.transmitter,
[phys[j].transmitter.init for j in range(i, min(len(phys), i+4))])
# GTHE3_CHANNEL
self.specials += JESD204BGTHTransmitter.get_gthe3_channel(
pll, phy.transmitter, **phy_channel_cfg)
self.submodules.core = JESD204BCoreTX(
phys, settings, converter_data_width=64)