revert erista mrf changes

This commit is contained in:
Lightos1
2026-05-24 21:30:05 +02:00
parent 65927cffce
commit 749fd385ce
18 changed files with 311 additions and 402 deletions

View File

@@ -98,8 +98,8 @@ std::vector<std::string> ConfigInfoStrings(HocClkConfigValue val, bool isMariko,
"- Washed: Washed out colors.",
"- Basic: Real natural profile.",
"- Natural: Not actually natural.. Extra saturation.",
"- Vivid: Saturated.",
"Default: Do not override"
"- Vivid: Saturated.",
"Default: Do not override"
};
case HocClkConfigValue_CpuGovernorMinimumFreq:
@@ -227,7 +227,7 @@ std::vector<std::string> ConfigInfoStrings(HocClkConfigValue val, bool isMariko,
"Default: 600 mV"
};
case KipConfigValue_stepMode:
case KipConfigValue_stepMode:
return {
"The step that RAM clocks take.",
"Options (with examples):",
@@ -250,6 +250,8 @@ std::vector<std::string> ConfigInfoStrings(HocClkConfigValue val, bool isMariko,
};
case KipConfigValue_eristaEmcMaxClock:
case KipConfigValue_eristaEmcMaxClock1:
case KipConfigValue_eristaEmcMaxClock2:
return {
"The RAM frequency used in the particular slot. Higher frequencies may cause instability, so increase this gradually and test for stability.",
"Default: Disabled (1600 MHz)"
@@ -361,6 +363,19 @@ std::vector<std::string> ConfigInfoStrings(HocClkConfigValue val, bool isMariko,
"These properties apply for both write and read latencies, and you can mix-and-match the brackets if necessary",
"Default: -"
};
case KipConfigValue_mem_burst_read_latency:
return {
"The read latency for the ram",
"Default: 1600 RL"
};
case KipConfigValue_mem_burst_write_latency:
return {
"The write latency for the ram",
"Default: 1600 WL"
};
case KipConfigValue_marikoCpuUVLow:
return {
"The CPU UV level used before tBreak",

View File

@@ -61,6 +61,7 @@ class RamLatenciesSubmenuGui;
class CpuSubmenuGui;
class GpuSubmenuGui;
class GpuCustomTableSubmenuGui;
class RamTableEditor;
class ExperimentalSettingsSubMenuGui;
MiscGui::MiscGui()
@@ -687,7 +688,7 @@ protected:
false
);
addConfigButton(
HocClkConfigValue_PollingIntervalMs,
"Polling Interval",
@@ -1012,7 +1013,7 @@ protected:
this->listElement->addItem(new tsl::elm::CategoryHeader("RAM Settings"));
addMappedConfigTrackbar(KipConfigValue_emcDvbShift, "DVB Shift",
{0xFFFFFFFCu, 0xFFFFFFFDu, 0xFFFFFFFEu, 0xFFFFFFFFu, 0u, 1u, 2u, 3u, 4u, 5u, 6u, 7u, 8u},
{"-4", "-3", "-2", "-1", " 0", "1", "2", "3", "4", "5", "6", "7", "8"});
@@ -1054,7 +1055,7 @@ protected:
true
);
}
addConfigToggle(KipConfigValue_hpMode, "HP Mode", true);
std::map<uint32_t, std::string> emc_voltage_label = {
@@ -1105,51 +1106,20 @@ protected:
addConfigButton(KipConfigValue_stepMode, "Step Mode", ValueRange(0, 0, 2, "", 0), "Step Mode", &thresholdsDisabled, {}, stepMode, false, true);
}
std::vector<NamedValue> emcMaxClock = { };
RamDisplayUnit unit = (RamDisplayUnit)this->configList->values[HocClkConfigValue_RamDisplayUnit];
if (IsErista()) {
emcMaxClock = {
NamedValue("Disabled", 1600000),
NamedValue("1633 MHz", 1633000),
NamedValue("1666 MHz", 1666000),
NamedValue("1700 MHz", 1700000),
NamedValue("1733 MHz", 1733000),
NamedValue("1766 MHz", 1766000),
NamedValue("1800 MHz", 1800000),
NamedValue("1833 MHz", 1833000),
NamedValue("1862 MHz", 1862400, "JEDEC."),
NamedValue("1881 MHz", 1881600),
NamedValue("1900 MHz", 1900800),
NamedValue("1920 MHz", 1920000),
NamedValue("1939 MHz", 1939200),
NamedValue("1958 MHz", 1958400),
NamedValue("1977 MHz", 1977600),
NamedValue("1996 MHz", 1996800, "JEDEC."),
NamedValue("2016 MHz", 2016000),
NamedValue("2035 MHz", 2035200),
NamedValue("2054 MHz", 2054400),
NamedValue("2073 MHz", 2073600),
NamedValue("2092 MHz", 2092800),
NamedValue("2112 MHz", 2112000),
NamedValue("2131 MHz", 2131200, "JEDEC."),
NamedValue("2150 MHz", 2150400),
NamedValue("2169 MHz", 2169600),
NamedValue("2188 MHz", 2188800),
NamedValue("2208 MHz", 2208000),
NamedValue("2227 MHz", 2227200),
NamedValue("2246 MHz", 2246400),
NamedValue("2265 MHz", 2265600),
NamedValue("2284 MHz", 2284800),
NamedValue("2304 MHz", 2304000),
NamedValue("2323 MHz", 2323200),
NamedValue("2342 MHz", 2342400),
NamedValue("2361 MHz", 2361600),
NamedValue("2380 MHz", 2380800),
NamedValue("2400 MHz", 2400000, "JEDEC."),
};
tsl::elm::ListItem* freqSubmenu = new tsl::elm::ListItem("RAM Frequency Editor");
freqSubmenu->setClickListener([](u64 keys) {
if (keys & HidNpadButton_A) {
tsl::changeTo<RamTableEditor>();
return true;
}
return false;
});
freqSubmenu->setValue(R_ARROW);
this->listElement->addItem(freqSubmenu);
} else {
emcMaxClock = {
RamDisplayUnit unit = (RamDisplayUnit)this->configList->values[HocClkConfigValue_RamDisplayUnit];
std::vector<NamedValue> marikoMaxEmcClock = {
NamedValue("1600 MHz", 1600000),
NamedValue("1633 MHz", 1633000),
NamedValue("1666 MHz", 1666000),
@@ -1203,20 +1173,19 @@ protected:
NamedValue("3233 MHz", 3233000, "High speedo needed!"),
NamedValue("3266 MHz", 3266000, "High speedo needed!"),
NamedValue("3300 MHz", 3300000, "High speedo needed!"),
// NamedValue("3333MHz (Needs extreme Speedo/PLL)", 3333000),
// NamedValue("3366MHz (Needs extreme Speedo/PLL)", 3366000),
// NamedValue("3400MHz (Needs extreme Speedo/PLL)", 3400000),
// NamedValue("3433MHz (Needs ridiculous Speedo/PLL)", 3433000),
// NamedValue("3466MHz (Needs ridiculous Speedo/PLL)", 3466000),
// NamedValue("3500MHz (Needs ridiculous Speedo/PLL)", 3500000),
};
}
for (auto& nv : emcMaxClock) {
if (nv.name != "Disabled") {
for (auto& nv : marikoMaxEmcClock)
nv.name = formatMemClockKhzLabel(nv.value, unit);
}
addConfigButton(KipConfigValue_marikoEmcMaxClock, "Ram Max Clock", ValueRange(0, 1, 1, "", 1), "Ram Max Clock", &thresholdsDisabled, {}, marikoMaxEmcClock, false, true);
}
if (IsMariko()) {
addConfigButton(KipConfigValue_marikoEmcMaxClock, "Ram Max Clock", ValueRange(0, 1, 1, "", 1), "Ram Max Clock", &thresholdsDisabled, {}, emcMaxClock, false, true);
} else {
addConfigButton(KipConfigValue_eristaEmcMaxClock, "Ram Max Clock", ValueRange(0, 1, 1, "", 1), "Ram Max Clock", &thresholdsDisabled, {}, emcMaxClock, false, true);
}
tsl::elm::ListItem* latenciesSubmenu = new tsl::elm::ListItem("RAM Latency Editor");
latenciesSubmenu->setClickListener([](u64 keys) {
@@ -1355,7 +1324,7 @@ public:
protected:
void normalizeLatencies(const HocClkConfigValue keysArr[4]) {
uint32_t maxClock = IsMariko() ? (uint32_t)this->configList->values[KipConfigValue_marikoEmcMaxClock] : (uint32_t)this->configList->values[KipConfigValue_eristaEmcMaxClock];
uint32_t maxClock = (uint32_t)this->configList->values[KipConfigValue_marikoEmcMaxClock];
uint32_t vals[4];
for (int i = 0; i < 4; i++) {
@@ -1390,37 +1359,35 @@ protected:
void listUI() override {
ValueThresholds thresholdsDisabled(0, 0);
if (IsErista()) {
std::vector<NamedValue> rlLabels = { NamedValue("1333 RL", 28), NamedValue("1600 RL", 32), NamedValue("1866 RL", 36), NamedValue("2133 RL", 40) };
std::vector<NamedValue> wlLabels = { NamedValue("1333 WL", 12), NamedValue("1600 WL", 14), NamedValue("1866 WL", 16), NamedValue("2133 WL", 18) };
addConfigButton(KipConfigValue_mem_burst_read_latency, "Read Latency", ValueRange(0, 6, 1, "", 0), "Read Latency", &thresholdsDisabled, {}, rlLabels, false, true);
addConfigButton(KipConfigValue_mem_burst_write_latency, "Write Latency", ValueRange(0, 6, 1, "", 0), "Write Latency", &thresholdsDisabled, {}, wlLabels, false, true);
return;
}
Result rc = hocclkIpcGetConfigValues(this->configList);
if (R_FAILED(rc)) [[unlikely]] {
FatalGui::openWithResultCode("hocclkIpcGetConfigValues", rc);
return;
}
uint32_t maxClock = IsMariko() ? (uint32_t)this->configList->values[KipConfigValue_marikoEmcMaxClock] : (uint32_t)this->configList->values[KipConfigValue_eristaEmcMaxClock];
uint32_t maxClock = (uint32_t)this->configList->values[KipConfigValue_marikoEmcMaxClock];
RamDisplayUnit unit = (RamDisplayUnit)this->configList->values[HocClkConfigValue_RamDisplayUnit];
static std::vector<uint32_t> kFreqOptions = { };
if (IsMariko()) {
kFreqOptions = {
1633000, 1666000, 1700000, 1733000, 1766000, 1800000,
1833000, 1866000, 1900000, 1933000, 1966000, 1996800, 2000000,
2033000, 2066000, 2100000, 2133000, 2166000, 2200000, 2233000,
2266000, 2300000, 2333000, 2366000, 2400000, 2433000, 2466000,
2500000, 2533000, 2566000, 2600000, 2633000, 2666000, 2700000,
2733000, 2766000, 2800000, 2833000, 2866000, 2900000, 2933000,
2966000, 3000000, 3033000, 3066000, 3100000, 3133000, 3166000,
3200000, 3233000, 3266000, 3300000,
};
} else {
kFreqOptions = {
1633000, 1666000, 1700000, 1733000, 1800000,
1833000, 1862400, 1881600, 1900800, 1920000, 1939200,
1958400, 1977600, 1996800, 2016000, 2035200, 2054400,
2073600, 2092800, 2112000, 2131200, 2150400, 2169600,
2188800, 2208000, 2227200, 2246400, 2265600, 2284800,
2304000, 2323200, 2342400, 2361600, 2380800, 2400000,
};
}
static const std::vector<uint32_t> kFreqOptions = {
1633000, 1666000, 1700000, 1733000, 1766000, 1800000,
1833000, 1866000, 1900000, 1933000, 1966000, 1996800, 2000000,
2033000, 2066000, 2100000, 2133000, 2166000, 2200000, 2233000,
2266000, 2300000, 2333000, 2366000, 2400000, 2433000, 2466000,
2500000, 2533000, 2566000, 2600000, 2633000, 2666000, 2700000,
2733000, 2766000, 2800000, 2833000, 2866000, 2900000, 2933000,
2966000, 3000000, 3033000, 3066000, 3100000, 3133000, 3166000,
3200000, 3233000, 3266000, 3300000,
};
static const HocClkConfigValue kLatencyRKeys[4] = {
KipConfigValue_read_latency_1333,
@@ -1480,7 +1447,7 @@ protected:
for (int i = 0; i < 4; i++)
vals[i] = (uint32_t)this->configList->values[keysArr[i]];
uint32_t maxClock = IsMariko() ? (uint32_t)this->configList->values[KipConfigValue_marikoEmcMaxClock] : (uint32_t)this->configList->values[KipConfigValue_eristaEmcMaxClock];
uint32_t maxClock = (uint32_t)this->configList->values[KipConfigValue_marikoEmcMaxClock];
RamDisplayUnit unit = (RamDisplayUnit)this->configList->values[HocClkConfigValue_RamDisplayUnit];
auto resolveVal = [maxClock](uint32_t v) -> uint32_t {
@@ -1688,7 +1655,7 @@ protected:
true
);
std::vector<NamedValue> maxClkOptions = {
NamedValue("1963 MHz", 1963500),
NamedValue("2091 MHz", 2091000),
@@ -1810,6 +1777,78 @@ protected:
}
};
class RamTableEditor : public MiscGui {
public:
RamTableEditor() { }
protected:
void listUI() override {
Result rc = hocclkIpcGetConfigValues(this->configList);
if (R_FAILED(rc)) [[unlikely]] { FatalGui::openWithResultCode("hocclkIpcGetConfigValues", rc); return; }
this->listElement->addItem(new tsl::elm::CategoryHeader("RAM Frequency Editor"));
ValueThresholds thresholdsDisabled(0, 0);
// 1600000, 1331200, 1065600, 800000, 665600, 408000, 204000
RamDisplayUnit unit = (RamDisplayUnit)this->configList->values[HocClkConfigValue_RamDisplayUnit];
this->listElement->addItem(new tsl::elm::ListItem(formatMemClockKhzLabel(665600, unit)));
this->listElement->addItem(new tsl::elm::ListItem(formatMemClockKhzLabel(800000, unit)));
this->listElement->addItem(new tsl::elm::ListItem(formatMemClockKhzLabel(1065600, unit)));
this->listElement->addItem(new tsl::elm::ListItem(formatMemClockKhzLabel(1331200, unit)));
this->listElement->addItem(new tsl::elm::ListItem(formatMemClockKhzLabel(1600000, unit)));
ValueThresholds eristaRamThresholds(2208000, 2304000);
std::vector<NamedValue> eristaMaxEmcClock = {
NamedValue("Disabled", 1600000),
NamedValue("1633 MHz", 1633000),
NamedValue("1666 MHz", 1666000),
NamedValue("1700 MHz", 1700000),
NamedValue("1733 MHz", 1733000),
NamedValue("1766 MHz", 1766000),
NamedValue("1800 MHz", 1800000),
NamedValue("1833 MHz", 1833000),
NamedValue("1862 MHz", 1862400, "JEDEC."),
NamedValue("1881 MHz", 1881600),
NamedValue("1900 MHz", 1900800),
NamedValue("1920 MHz", 1920000),
NamedValue("1939 MHz", 1939200),
NamedValue("1958 MHz", 1958400),
NamedValue("1977 MHz", 1977600),
NamedValue("1996 MHz", 1996800, "JEDEC."),
NamedValue("2016 MHz", 2016000),
NamedValue("2035 MHz", 2035200),
NamedValue("2054 MHz", 2054400),
NamedValue("2073 MHz", 2073600),
NamedValue("2092 MHz", 2092800),
NamedValue("2112 MHz", 2112000),
NamedValue("2131 MHz", 2131200, "JEDEC."),
NamedValue("2150 MHz", 2150400),
NamedValue("2169 MHz", 2169600),
NamedValue("2188 MHz", 2188800),
NamedValue("2208 MHz", 2208000),
NamedValue("2227 MHz", 2227200),
NamedValue("2246 MHz", 2246400),
NamedValue("2265 MHz", 2265600),
NamedValue("2284 MHz", 2284800),
NamedValue("2304 MHz", 2304000),
NamedValue("2323 MHz", 2323200),
NamedValue("2342 MHz", 2342400),
NamedValue("2361 MHz", 2361600),
NamedValue("2380 MHz", 2380800),
NamedValue("2400 MHz", 2400000, "JEDEC."),
};
for (auto& nv : eristaMaxEmcClock)
if (nv.name != "Disabled")
nv.name = formatMemClockKhzLabel(nv.value, unit);
addConfigButtonS(KipConfigValue_eristaEmcMaxClock, "", ValueRange(0, 1, 1, "", 1), "", &eristaRamThresholds, {}, eristaMaxEmcClock, false, A_BTN, true);
addConfigButtonS(KipConfigValue_eristaEmcMaxClock1, "", ValueRange(0, 1, 1, "", 1), "", &eristaRamThresholds, {}, eristaMaxEmcClock, false, A_BTN, true);
addConfigButtonS(KipConfigValue_eristaEmcMaxClock2, "", ValueRange(0, 1, 1, "", 1), "", &eristaRamThresholds, {}, eristaMaxEmcClock, false, A_BTN, true);
};
};
class GpuSubmenuGui : public MiscGui {
public:
GpuSubmenuGui() { }
@@ -2293,6 +2332,8 @@ void MiscGui::refresh() {
constexpr HocClkConfigValue emcKeys[] = {
KipConfigValue_marikoEmcMaxClock,
KipConfigValue_eristaEmcMaxClock,
KipConfigValue_eristaEmcMaxClock1,
KipConfigValue_eristaEmcMaxClock2,
};
for (auto key : emcKeys) {
auto it = this->configNamedValues.find(key);