litedram/test/test_modules.py

#
# This file is part of LiteDRAM.
#
# Copyright (c) 2020 Antmicro <www.antmicro.com>
# SPDX-License-Identifier: BSD-2-Clause

import os
import csv
import unittest

import litedram.modules
from litedram.modules import SDRAMModule, DDR3SPDData


def load_spd_reference(filename):
    """Load reference SPD data from a CSV file

    Micron reference SPD data can be obtained from:
    https://www.micron.com/support/tools-and-utilities/serial-presence-detect
    """
    script_dir = os.path.dirname(os.path.realpath(__file__))
    path = os.path.join(script_dir, "spd_data", filename)
    data = [0] * 512
    with open(path) as f:
        reader = csv.DictReader(f)
        for row in reader:
            address = row["Byte Number"]
            value = row["Byte Value"]
            # Ignore ranges (data we care about is specified per byte anyway)
            if len(address.split("-")) == 1:
                data[int(address)] = int(value, 16)
    return data


class TestSPD(unittest.TestCase):
    def test_tck_to_speedgrade(self):
        # Verify that speedgrade transfer rates are calculated correctly from tck
        tck_to_speedgrade = {
            2.5:    800,
            1.875: 1066,
            1.5:   1333,
            1.25:  1600,
            1.071: 1866,
            0.938: 2133,
        }
        for tck, speedgrade in tck_to_speedgrade.items():
            self.assertEqual(speedgrade, DDR3SPDData.speedgrade_freq(tck))

    def test_spd_data(self):
        # Verify that correct _spd_data is added to SDRAMModule
        data = load_spd_reference("MT16KTF1G64HZ-1G6P1.csv")
        module = SDRAMModule.from_spd_data(data, 125e6)
        self.assertEqual(module._spd_data, data)

    def compare_geometry(self, module, module_ref):
        self.assertEqual(module.nbanks, module_ref.nbanks)
        self.assertEqual(module.nrows, module_ref.nrows)
        self.assertEqual(module.ncols, module_ref.ncols)

    def compare_technology_timings(self, module, module_ref, omit=None):
        timings = {"tREFI", "tWTR", "tCCD", "tRRD", "tZQCS"}
        if omit is not None:
            timings -= omit
        for timing in timings:
            txx = getattr(module.technology_timings, timing)
            txx_ref = getattr(module_ref.technology_timings, timing)
            with self.subTest(txx=timing):
                self.assertEqual(txx, txx_ref)

    def compare_speedgrade_timings(self, module, module_ref, omit=None):
        timings = {"tRP", "tRCD", "tWR", "tRFC", "tFAW", "tRAS"}
        if omit is not None:
            timings -= omit
        for freq, speedgrade_timings in module.speedgrade_timings.items():
            if freq == "default":
                continue
            for timing in timings:
                txx = getattr(speedgrade_timings, timing)
                txx_ref = getattr(module_ref.speedgrade_timings[freq], timing)
                with self.subTest(freq=freq, txx=timing):
                    self.assertEqual(txx, txx_ref)

    def compare_modules(self, module, module_ref, omit=None):
        self.assertEqual(module.memtype, module_ref.memtype)
        self.assertEqual(module.rate, module_ref.rate)
        self.compare_geometry(module, module_ref)
        self.compare_technology_timings(module, module_ref, omit=omit)
        self.compare_speedgrade_timings(module, module_ref, omit=omit)

    def test_MT16KTF1G64HZ(self):
        kwargs = dict(clk_freq=125e6, rate="1:4")
        module_ref = litedram.modules.MT16KTF1G64HZ(**kwargs)

        with self.subTest(speedgrade="-1G6"):
            data = load_spd_reference("MT16KTF1G64HZ-1G6P1.csv")
            module = SDRAMModule.from_spd_data(data, kwargs["clk_freq"])
            self.compare_modules(module, module_ref)
            sgt = module.speedgrade_timings["1600"]
            self.assertEqual(sgt.tRP,            13.125)
            self.assertEqual(sgt.tRCD,           13.125)
            self.assertEqual(sgt.tRP + sgt.tRAS, 48.125)

        with self.subTest(speedgrade="-1G9"):
            data = load_spd_reference("MT16KTF1G64HZ-1G9E1.csv")
            module = SDRAMModule.from_spd_data(data, kwargs["clk_freq"])
            # tRRD it different for this speedgrade
            self.compare_modules(module, module_ref, omit={"tRRD"})
            self.assertEqual(module.technology_timings.tRRD, (4, 5))
            sgt = module.speedgrade_timings["1866"]
            self.assertEqual(sgt.tRP,            13.125)
            self.assertEqual(sgt.tRCD,           13.125)
            self.assertEqual(sgt.tRP + sgt.tRAS, 47.125)

    def test_MT18KSF1G72HZ(self):
        kwargs = dict(clk_freq=125e6, rate="1:4")
        module_ref = litedram.modules.MT18KSF1G72HZ(**kwargs)

        with self.subTest(speedgrade="-1G6"):
            data = load_spd_reference("MT18KSF1G72HZ-1G6E2.csv")
            module = SDRAMModule.from_spd_data(data, kwargs["clk_freq"])
            self.compare_modules(module, module_ref)
            sgt = module.speedgrade_timings["1600"]
            self.assertEqual(sgt.tRP,            13.125)
            self.assertEqual(sgt.tRCD,           13.125)
            self.assertEqual(sgt.tRP + sgt.tRAS, 48.125)

        with self.subTest(speedgrade="-1G4"):
            data = load_spd_reference("MT18KSF1G72HZ-1G4E2.csv")
            module = SDRAMModule.from_spd_data(data, kwargs["clk_freq"])
            self.compare_modules(module, module_ref)
            sgt = module.speedgrade_timings["1333"]
            self.assertEqual(sgt.tRP,            13.125)
            self.assertEqual(sgt.tRCD,           13.125)
            self.assertEqual(sgt.tRP + sgt.tRAS, 49.125)

    def test_MT8JTF12864(self):
        kwargs = dict(clk_freq=125e6, rate="1:4")
        module_ref = litedram.modules.MT8JTF12864(**kwargs)

        data = load_spd_reference("MT8JTF12864AZ-1G4G1.csv")
        module = SDRAMModule.from_spd_data(data, kwargs["clk_freq"])
        self.compare_modules(module, module_ref)
        sgt = module.speedgrade_timings["1333"]
        self.assertEqual(sgt.tRP,            13.125)
        self.assertEqual(sgt.tRCD,           13.125)
        self.assertEqual(sgt.tRP + sgt.tRAS, 49.125)

    def test_MT8KTF51264(self):
        kwargs = dict(clk_freq=100e6, rate="1:4")
        module_ref = litedram.modules.MT8KTF51264(**kwargs)

        with self.subTest(speedgrade="-1G4"):
            data = load_spd_reference("MT8KTF51264HZ-1G4E1.csv")
            module = SDRAMModule.from_spd_data(data, kwargs["clk_freq"])
            self.compare_modules(module, module_ref)
            sgt = module.speedgrade_timings["1333"]
            self.assertEqual(sgt.tRP,            13.125)
            self.assertEqual(sgt.tRCD,           13.125)
            self.assertEqual(sgt.tRP + sgt.tRAS, 49.125)

        with self.subTest(speedgrade="-1G6"):
            data = load_spd_reference("MT8KTF51264HZ-1G6E1.csv")
            module = SDRAMModule.from_spd_data(data, kwargs["clk_freq"])
            self.compare_modules(module, module_ref)
            sgt = module.speedgrade_timings["1600"]
            self.assertEqual(sgt.tRP,            13.125)
            self.assertEqual(sgt.tRCD,           13.125)
            self.assertEqual(sgt.tRP + sgt.tRAS, 48.125)

        with self.subTest(speedgrade="-1G9"):
            data = load_spd_reference("MT8KTF51264HZ-1G9P1.csv")
            module = SDRAMModule.from_spd_data(data, kwargs["clk_freq"])
            # tRRD different for this timing
            self.compare_modules(module, module_ref, omit={"tRRD"})
            self.assertEqual(module.technology_timings.tRRD, (4, 5))
            sgt = module.speedgrade_timings["1866"]
            self.assertEqual(sgt.tRP,            13.125)
            self.assertEqual(sgt.tRCD,           13.125)
            self.assertEqual(sgt.tRP + sgt.tRAS, 47.125)

    def test_MTA4ATF51264HZ_parsing(self):
        kwargs = dict(clk_freq=100e6, rate="1:4")

        with self.subTest(speedgrade="-2G3"):
            data = load_spd_reference("MTA4ATF51264HZ-2G3B1.csv")
            module = SDRAMModule.from_spd_data(data, kwargs["clk_freq"])
            sgt = module.speedgrade_timings["2400"]
            self.assertEqual(sgt.tRP,            13.75)
            self.assertEqual(sgt.tRCD,           13.75)
            self.assertEqual(sgt.tRP + sgt.tRAS, 45.75)

        with self.subTest(speedgrade="-3G2"):
            data = load_spd_reference("MTA4ATF51264HZ-3G2E1.csv")
            module = SDRAMModule.from_spd_data(data, kwargs["clk_freq"])
            sgt = module.speedgrade_timings["3200"]
            self.assertEqual(sgt.tRP,            13.75)
            self.assertEqual(sgt.tRCD,           13.75)
            self.assertEqual(sgt.tRP + sgt.tRAS, 45.75)

    # FIXME: when setting timings as seen in SPD, DRAM leveling fails
    @unittest.skip("Using timings from SPD fails DRAM initialzation on this module")
    def test_MTA4ATF51264HZ(self):
        kwargs = dict(clk_freq=100e6, rate="1:4")
        module_ref = litedram.modules.MTA4ATF51264HZ(**kwargs)

        with self.subTest(speedgrade="-2G3"):
            data = load_spd_reference("MTA4ATF51264HZ-2G3B1.csv")
            module = SDRAMModule.from_spd_data(data, kwargs["clk_freq"])
            self.compare_modules(module, module_ref)
            sgt = module.speedgrade_timings["2400"]
            self.assertEqual(sgt.tRP,            13.75)
            self.assertEqual(sgt.tRCD,           13.75)
            self.assertEqual(sgt.tRP + sgt.tRAS, 45.75)

        with self.subTest(speedgrade="-3G2"):
            data = load_spd_reference("MTA4ATF51264HZ-3G2E1.csv")
            module = SDRAMModule.from_spd_data(data, kwargs["clk_freq"])
            self.compare_modules(module, module_ref)
            sgt = module.speedgrade_timings["3200"]
            self.assertEqual(sgt.tRP,            13.75)
            self.assertEqual(sgt.tRCD,           13.75)
            self.assertEqual(sgt.tRP + sgt.tRAS, 45.75)
add SPDX License identifier to header and specify file is part of LiteDRAM. 2020-08-23 09:52:08 -04:00			`#`
			`# This file is part of LiteDRAM.`
			`#`
			`# Copyright (c) 2020 Antmicro <www.antmicro.com>`
			`# SPDX-License-Identifier: BSD-2-Clause`
modules: add option to load module parameters from SPD data 2020-04-14 10:13:15 -04:00
			`import os`
			`import csv`
			`import unittest`

			`import litedram.modules`
modules: fix calculations of speedgrade from tck in SPD data 2020-04-16 04:12:23 -04:00			`from litedram.modules import SDRAMModule, DDR3SPDData`
modules: add option to load module parameters from SPD data 2020-04-14 10:13:15 -04:00

			`def load_spd_reference(filename):`
test: improve SPD tests of Micron DDR3 SO-DIMM modules 2020-04-16 04:37:44 -04:00			`"""Load reference SPD data from a CSV file`

			`Micron reference SPD data can be obtained from:`
			`https://www.micron.com/support/tools-and-utilities/serial-presence-detect`
			`"""`
modules: add option to load module parameters from SPD data 2020-04-14 10:13:15 -04:00			`script_dir = os.path.dirname(os.path.realpath(__file__))`
			`path = os.path.join(script_dir, "spd_data", filename)`
modules: add DDR4SPDData parser 2020-06-02 06:16:41 -04:00			`data = [0] * 512`
modules: add option to load module parameters from SPD data 2020-04-14 10:13:15 -04:00			`with open(path) as f:`
			`reader = csv.DictReader(f)`
			`for row in reader:`
			`address = row["Byte Number"]`
			`value = row["Byte Value"]`
test: improve SPD tests of Micron DDR3 SO-DIMM modules 2020-04-16 04:37:44 -04:00			`# Ignore ranges (data we care about is specified per byte anyway)`
modules: add option to load module parameters from SPD data 2020-04-14 10:13:15 -04:00			`if len(address.split("-")) == 1:`
			`data[int(address)] = int(value, 16)`
			`return data`


			`class TestSPD(unittest.TestCase):`
modules: fix calculations of speedgrade from tck in SPD data 2020-04-16 04:12:23 -04:00			`def test_tck_to_speedgrade(self):`
test: improve SPD tests of Micron DDR3 SO-DIMM modules 2020-04-16 04:37:44 -04:00			`# Verify that speedgrade transfer rates are calculated correctly from tck`
modules: fix calculations of speedgrade from tck in SPD data 2020-04-16 04:12:23 -04:00			`tck_to_speedgrade = {`
			`2.5: 800,`
			`1.875: 1066,`
			`1.5: 1333,`
			`1.25: 1600,`
			`1.071: 1866,`
			`0.938: 2133,`
			`}`
			`for tck, speedgrade in tck_to_speedgrade.items():`
			`self.assertEqual(speedgrade, DDR3SPDData.speedgrade_freq(tck))`

modules/spd: save SPD data in SDRAMModule to allow for runtime verification 2020-06-01 10:54:36 -04:00			`def test_spd_data(self):`
			`# Verify that correct _spd_data is added to SDRAMModule`
			`data = load_spd_reference("MT16KTF1G64HZ-1G6P1.csv")`
			`module = SDRAMModule.from_spd_data(data, 125e6)`
			`self.assertEqual(module._spd_data, data)`

modules: add option to load module parameters from SPD data 2020-04-14 10:13:15 -04:00			`def compare_geometry(self, module, module_ref):`
			`self.assertEqual(module.nbanks, module_ref.nbanks)`
			`self.assertEqual(module.nrows, module_ref.nrows)`
			`self.assertEqual(module.ncols, module_ref.ncols)`

modules: update existsing SO-DIMM timings based on SPD data 2020-04-16 09:38:45 -04:00			`def compare_technology_timings(self, module, module_ref, omit=None):`
			`timings = {"tREFI", "tWTR", "tCCD", "tRRD", "tZQCS"}`
			`if omit is not None:`
			`timings -= omit`
			`for timing in timings:`
modules: add option to load module parameters from SPD data 2020-04-14 10:13:15 -04:00			`txx = getattr(module.technology_timings, timing)`
			`txx_ref = getattr(module_ref.technology_timings, timing)`
modules: update existsing SO-DIMM timings based on SPD data 2020-04-16 09:38:45 -04:00			`with self.subTest(txx=timing):`
modules: add option to load module parameters from SPD data 2020-04-14 10:13:15 -04:00			`self.assertEqual(txx, txx_ref)`

modules: update existsing SO-DIMM timings based on SPD data 2020-04-16 09:38:45 -04:00			`def compare_speedgrade_timings(self, module, module_ref, omit=None):`
			`timings = {"tRP", "tRCD", "tWR", "tRFC", "tFAW", "tRAS"}`
			`if omit is not None:`
			`timings -= omit`
			`for freq, speedgrade_timings in module.speedgrade_timings.items():`
			`if freq == "default":`
			`continue`
			`for timing in timings:`
			`txx = getattr(speedgrade_timings, timing)`
modules: add option to load module parameters from SPD data 2020-04-14 10:13:15 -04:00			`txx_ref = getattr(module_ref.speedgrade_timings[freq], timing)`
modules: update existsing SO-DIMM timings based on SPD data 2020-04-16 09:38:45 -04:00			`with self.subTest(freq=freq, txx=timing):`
modules: add option to load module parameters from SPD data 2020-04-14 10:13:15 -04:00			`self.assertEqual(txx, txx_ref)`

modules: update existsing SO-DIMM timings based on SPD data 2020-04-16 09:38:45 -04:00			`def compare_modules(self, module, module_ref, omit=None):`
			`self.assertEqual(module.memtype, module_ref.memtype)`
modules: pass rate automatically when creating module from SPD data 2020-04-17 08:14:02 -04:00			`self.assertEqual(module.rate, module_ref.rate)`
modules: update existsing SO-DIMM timings based on SPD data 2020-04-16 09:38:45 -04:00			`self.compare_geometry(module, module_ref)`
			`self.compare_technology_timings(module, module_ref, omit=omit)`
			`self.compare_speedgrade_timings(module, module_ref, omit=omit)`

modules: add option to load module parameters from SPD data 2020-04-14 10:13:15 -04:00			`def test_MT16KTF1G64HZ(self):`
			`kwargs = dict(clk_freq=125e6, rate="1:4")`
			`module_ref = litedram.modules.MT16KTF1G64HZ(**kwargs)`
test: improve SPD tests of Micron DDR3 SO-DIMM modules 2020-04-16 04:37:44 -04:00
			`with self.subTest(speedgrade="-1G6"):`
modules: update existsing SO-DIMM timings based on SPD data 2020-04-16 09:38:45 -04:00			`data = load_spd_reference("MT16KTF1G64HZ-1G6P1.csv")`
modules: pass rate automatically when creating module from SPD data 2020-04-17 08:14:02 -04:00			`module = SDRAMModule.from_spd_data(data, kwargs["clk_freq"])`
modules: update existsing SO-DIMM timings based on SPD data 2020-04-16 09:38:45 -04:00			`self.compare_modules(module, module_ref)`
test: improve SPD tests of Micron DDR3 SO-DIMM modules 2020-04-16 04:37:44 -04:00			`sgt = module.speedgrade_timings["1600"]`
			`self.assertEqual(sgt.tRP, 13.125)`
			`self.assertEqual(sgt.tRCD, 13.125)`
			`self.assertEqual(sgt.tRP + sgt.tRAS, 48.125)`

			`with self.subTest(speedgrade="-1G9"):`
			`data = load_spd_reference("MT16KTF1G64HZ-1G9E1.csv")`
modules: pass rate automatically when creating module from SPD data 2020-04-17 08:14:02 -04:00			`module = SDRAMModule.from_spd_data(data, kwargs["clk_freq"])`
modules: update existsing SO-DIMM timings based on SPD data 2020-04-16 09:38:45 -04:00			`# tRRD it different for this speedgrade`
			`self.compare_modules(module, module_ref, omit={"tRRD"})`
			`self.assertEqual(module.technology_timings.tRRD, (4, 5))`
test: improve SPD tests of Micron DDR3 SO-DIMM modules 2020-04-16 04:37:44 -04:00			`sgt = module.speedgrade_timings["1866"]`
			`self.assertEqual(sgt.tRP, 13.125)`
			`self.assertEqual(sgt.tRCD, 13.125)`
			`self.assertEqual(sgt.tRP + sgt.tRAS, 47.125)`
modules: add option to load module parameters from SPD data 2020-04-14 10:13:15 -04:00
			`def test_MT18KSF1G72HZ(self):`
			`kwargs = dict(clk_freq=125e6, rate="1:4")`
			`module_ref = litedram.modules.MT18KSF1G72HZ(**kwargs)`
test: improve SPD tests of Micron DDR3 SO-DIMM modules 2020-04-16 04:37:44 -04:00
			`with self.subTest(speedgrade="-1G6"):`
			`data = load_spd_reference("MT18KSF1G72HZ-1G6E2.csv")`
modules: pass rate automatically when creating module from SPD data 2020-04-17 08:14:02 -04:00			`module = SDRAMModule.from_spd_data(data, kwargs["clk_freq"])`
modules: update existsing SO-DIMM timings based on SPD data 2020-04-16 09:38:45 -04:00			`self.compare_modules(module, module_ref)`
test: improve SPD tests of Micron DDR3 SO-DIMM modules 2020-04-16 04:37:44 -04:00			`sgt = module.speedgrade_timings["1600"]`
			`self.assertEqual(sgt.tRP, 13.125)`
			`self.assertEqual(sgt.tRCD, 13.125)`
			`self.assertEqual(sgt.tRP + sgt.tRAS, 48.125)`

			`with self.subTest(speedgrade="-1G4"):`
			`data = load_spd_reference("MT18KSF1G72HZ-1G4E2.csv")`
modules: pass rate automatically when creating module from SPD data 2020-04-17 08:14:02 -04:00			`module = SDRAMModule.from_spd_data(data, kwargs["clk_freq"])`
modules: update existsing SO-DIMM timings based on SPD data 2020-04-16 09:38:45 -04:00			`self.compare_modules(module, module_ref)`
test: improve SPD tests of Micron DDR3 SO-DIMM modules 2020-04-16 04:37:44 -04:00			`sgt = module.speedgrade_timings["1333"]`
			`self.assertEqual(sgt.tRP, 13.125)`
			`self.assertEqual(sgt.tRCD, 13.125)`
			`self.assertEqual(sgt.tRP + sgt.tRAS, 49.125)`
modules: add option to load module parameters from SPD data 2020-04-14 10:13:15 -04:00
			`def test_MT8JTF12864(self):`
			`kwargs = dict(clk_freq=125e6, rate="1:4")`
			`module_ref = litedram.modules.MT8JTF12864(**kwargs)`
test: improve SPD tests of Micron DDR3 SO-DIMM modules 2020-04-16 04:37:44 -04:00
			`data = load_spd_reference("MT8JTF12864AZ-1G4G1.csv")`
modules: pass rate automatically when creating module from SPD data 2020-04-17 08:14:02 -04:00			`module = SDRAMModule.from_spd_data(data, kwargs["clk_freq"])`
modules: update existsing SO-DIMM timings based on SPD data 2020-04-16 09:38:45 -04:00			`self.compare_modules(module, module_ref)`
modules: add option to load module parameters from SPD data 2020-04-14 10:13:15 -04:00			`sgt = module.speedgrade_timings["1333"]`
			`self.assertEqual(sgt.tRP, 13.125)`
			`self.assertEqual(sgt.tRCD, 13.125)`
			`self.assertEqual(sgt.tRP + sgt.tRAS, 49.125)`

			`def test_MT8KTF51264(self):`
			`kwargs = dict(clk_freq=100e6, rate="1:4")`
			`module_ref = litedram.modules.MT8KTF51264(**kwargs)`
test: improve SPD tests of Micron DDR3 SO-DIMM modules 2020-04-16 04:37:44 -04:00
			`with self.subTest(speedgrade="-1G4"):`
			`data = load_spd_reference("MT8KTF51264HZ-1G4E1.csv")`
modules: pass rate automatically when creating module from SPD data 2020-04-17 08:14:02 -04:00			`module = SDRAMModule.from_spd_data(data, kwargs["clk_freq"])`
modules: update existsing SO-DIMM timings based on SPD data 2020-04-16 09:38:45 -04:00			`self.compare_modules(module, module_ref)`
test: improve SPD tests of Micron DDR3 SO-DIMM modules 2020-04-16 04:37:44 -04:00			`sgt = module.speedgrade_timings["1333"]`
			`self.assertEqual(sgt.tRP, 13.125)`
			`self.assertEqual(sgt.tRCD, 13.125)`
			`self.assertEqual(sgt.tRP + sgt.tRAS, 49.125)`

			`with self.subTest(speedgrade="-1G6"):`
			`data = load_spd_reference("MT8KTF51264HZ-1G6E1.csv")`
modules: pass rate automatically when creating module from SPD data 2020-04-17 08:14:02 -04:00			`module = SDRAMModule.from_spd_data(data, kwargs["clk_freq"])`
modules: update existsing SO-DIMM timings based on SPD data 2020-04-16 09:38:45 -04:00			`self.compare_modules(module, module_ref)`
test: improve SPD tests of Micron DDR3 SO-DIMM modules 2020-04-16 04:37:44 -04:00			`sgt = module.speedgrade_timings["1600"]`
			`self.assertEqual(sgt.tRP, 13.125)`
			`self.assertEqual(sgt.tRCD, 13.125)`
			`self.assertEqual(sgt.tRP + sgt.tRAS, 48.125)`

			`with self.subTest(speedgrade="-1G9"):`
			`data = load_spd_reference("MT8KTF51264HZ-1G9P1.csv")`
modules: pass rate automatically when creating module from SPD data 2020-04-17 08:14:02 -04:00			`module = SDRAMModule.from_spd_data(data, kwargs["clk_freq"])`
modules: update existsing SO-DIMM timings based on SPD data 2020-04-16 09:38:45 -04:00			`# tRRD different for this timing`
			`self.compare_modules(module, module_ref, omit={"tRRD"})`
			`self.assertEqual(module.technology_timings.tRRD, (4, 5))`
test: improve SPD tests of Micron DDR3 SO-DIMM modules 2020-04-16 04:37:44 -04:00			`sgt = module.speedgrade_timings["1866"]`
			`self.assertEqual(sgt.tRP, 13.125)`
			`self.assertEqual(sgt.tRCD, 13.125)`
			`self.assertEqual(sgt.tRP + sgt.tRAS, 47.125)`
modules: add DDR4SPDData parser 2020-06-02 06:16:41 -04:00
			`def test_MTA4ATF51264HZ_parsing(self):`
			`kwargs = dict(clk_freq=100e6, rate="1:4")`

			`with self.subTest(speedgrade="-2G3"):`
			`data = load_spd_reference("MTA4ATF51264HZ-2G3B1.csv")`
			`module = SDRAMModule.from_spd_data(data, kwargs["clk_freq"])`
			`sgt = module.speedgrade_timings["2400"]`
			`self.assertEqual(sgt.tRP, 13.75)`
			`self.assertEqual(sgt.tRCD, 13.75)`
			`self.assertEqual(sgt.tRP + sgt.tRAS, 45.75)`

			`with self.subTest(speedgrade="-3G2"):`
			`data = load_spd_reference("MTA4ATF51264HZ-3G2E1.csv")`
			`module = SDRAMModule.from_spd_data(data, kwargs["clk_freq"])`
			`sgt = module.speedgrade_timings["3200"]`
			`self.assertEqual(sgt.tRP, 13.75)`
			`self.assertEqual(sgt.tRCD, 13.75)`
			`self.assertEqual(sgt.tRP + sgt.tRAS, 45.75)`

			`# FIXME: when setting timings as seen in SPD, DRAM leveling fails`
			`@unittest.skip("Using timings from SPD fails DRAM initialzation on this module")`
			`def test_MTA4ATF51264HZ(self):`
			`kwargs = dict(clk_freq=100e6, rate="1:4")`
			`module_ref = litedram.modules.MTA4ATF51264HZ(**kwargs)`

			`with self.subTest(speedgrade="-2G3"):`
			`data = load_spd_reference("MTA4ATF51264HZ-2G3B1.csv")`
			`module = SDRAMModule.from_spd_data(data, kwargs["clk_freq"])`
			`self.compare_modules(module, module_ref)`
			`sgt = module.speedgrade_timings["2400"]`
			`self.assertEqual(sgt.tRP, 13.75)`
			`self.assertEqual(sgt.tRCD, 13.75)`
			`self.assertEqual(sgt.tRP + sgt.tRAS, 45.75)`

			`with self.subTest(speedgrade="-3G2"):`
			`data = load_spd_reference("MTA4ATF51264HZ-3G2E1.csv")`
			`module = SDRAMModule.from_spd_data(data, kwargs["clk_freq"])`
			`self.compare_modules(module, module_ref)`
			`sgt = module.speedgrade_timings["3200"]`
			`self.assertEqual(sgt.tRP, 13.75)`
			`self.assertEqual(sgt.tRCD, 13.75)`
			`self.assertEqual(sgt.tRP + sgt.tRAS, 45.75)`