public Chip(ChipName name, ChipType _type)
{
type = _type;
Name = name;
NumConnectLimit = LimitConnect.Get(name);
}
public static Chip GetInstance(ChipName name)
{
foreach (Chip chip in instance_chache[name])
{
if (!chip.isUse)
{
chip.SetActive(true);
return(chip);
}
}
// インスタンスを追加して使用する。
Chip new_chip = null;
switch (name)
{
case ChipName.CPU:
new_chip = new CPUChip(name);
break;
case ChipName.FORWARD_MOVE:
new_chip = new MoveChip(name, ActionType.FORWARD_MOVE);
break;
case ChipName.BACKWARD_MOVE:
new_chip = new MoveChip(name, ActionType.BACKWARD_MOVE);
break;
case ChipName.RIGHT_MOVE:
new_chip = new MoveChip(name, ActionType.RIGHT_MOVE);
break;
case ChipName.LEFT_MOVE:
new_chip = new MoveChip(name, ActionType.LEFT_MOVE);
break;
case ChipName.GAIN:
new_chip = new GainChip(name);
break;
case ChipName.SOUND:
new_chip = new SoundChip(name);
break;
case ChipName.COLOR:
new_chip = new ColorChip(name);
break;
}
if (new_chip != null)
{
instance_chache[name].Add(new_chip);
new_chip.SetActive(true);
}
return(new_chip);
}
public static int Get(ChipName name)
{
switch (name)
{
case ChipName.CPU:
return(cpu);
case ChipName.FORWARD_MOVE:
case ChipName.BACKWARD_MOVE:
case ChipName.RIGHT_MOVE:
case ChipName.LEFT_MOVE:
return(move);
case ChipName.GAIN:
return(gain);
case ChipName.SOUND:
return(sound);
case ChipName.COLOR:
return(color);
}
return(0);
}
public CPUChip(ChipName name) : base(name, ChipType.SYSTEM)
{
}
public SoundChip(ChipName name) : base(name, ChipType.BOOL)
{
}
public SuperIOHardware(Mainboard mainboard, ISuperIO superIO,
Manufacturer manufacturer, Model model, ISettings settings)
{
this.mainboard = mainboard;
this.superIO = superIO;
this.name = ChipName.GetName(superIO.Chip);
this.readVoltage = (index) => superIO.Voltages[index];
this.readTemperature = (index) => superIO.Temperatures[index];
this.readFan = (index) => superIO.Fans[index];
this.postUpdate = () => { };
List <Voltage> v = new List <Voltage>();
List <Temperature> t = new List <Temperature>();
List <Fan> f = new List <Fan>();
switch (superIO.Chip)
{
case Chip.IT8712F:
case Chip.IT8716F:
case Chip.IT8718F:
case Chip.IT8720F:
case Chip.IT8726F:
switch (manufacturer)
{
case Manufacturer.ASUS:
switch (model)
{
case Model.Crosshair_III_Formula: // IT8720F
v.Add(new Voltage("VBat", 8));
t.Add(new Temperature("CPU", 0));
for (int i = 0; i < superIO.Fans.Length; i++)
{
f.Add(new Fan("Fan #" + (i + 1), i));
}
break;
case Model.M2N_SLI_DELUXE:
v.Add(new Voltage("CPU VCore", 0));
v.Add(new Voltage("+3.3V", 1));
v.Add(new Voltage("+5V", 3, 6.8f, 10));
v.Add(new Voltage("+12V", 4, 30, 10));
v.Add(new Voltage("+5VSB", 7, 6.8f, 10));
v.Add(new Voltage("VBat", 8));
t.Add(new Temperature("CPU", 0));
t.Add(new Temperature("Motherboard", 1));
f.Add(new Fan("CPU Fan", 0));
f.Add(new Fan("Chassis Fan #1", 1));
f.Add(new Fan("Power Fan", 2));
break;
case Model.M4A79XTD_EVO: // IT8720F
v.Add(new Voltage("+5V", 3, 6.8f, 10));
v.Add(new Voltage("VBat", 8));
t.Add(new Temperature("CPU", 0));
t.Add(new Temperature("Motherboard", 1));
f.Add(new Fan("CPU Fan", 0));
f.Add(new Fan("Chassis Fan #1", 1));
f.Add(new Fan("Chassis Fan #2", 2));
break;
default:
v.Add(new Voltage("CPU VCore", 0));
v.Add(new Voltage("Voltage #2", 1, true));
v.Add(new Voltage("Voltage #3", 2, true));
v.Add(new Voltage("Voltage #4", 3, true));
v.Add(new Voltage("Voltage #5", 4, true));
v.Add(new Voltage("Voltage #6", 5, true));
v.Add(new Voltage("Voltage #7", 6, true));
v.Add(new Voltage("Voltage #8", 7, true));
v.Add(new Voltage("VBat", 8));
for (int i = 0; i < superIO.Temperatures.Length; i++)
{
t.Add(new Temperature("Temperature #" + (i + 1), i));
}
for (int i = 0; i < superIO.Fans.Length; i++)
{
f.Add(new Fan("Fan #" + (i + 1), i));
}
break;
}
break;
case Manufacturer.ASRock:
switch (model)
{
case Model.P55_Deluxe: // IT8720F
v.Add(new Voltage("CPU VCore", 0));
v.Add(new Voltage("+3.3V", 2));
v.Add(new Voltage("+12V", 4, 30, 10));
v.Add(new Voltage("+5V", 5, 6.8f, 10));
v.Add(new Voltage("VBat", 8));
t.Add(new Temperature("CPU", 0));
t.Add(new Temperature("Motherboard", 1));
f.Add(new Fan("CPU Fan", 0));
f.Add(new Fan("Chassis Fan #1", 1));
// this mutex is also used by the official ASRock tool
mutex = new Mutex(false, "ASRockOCMark");
bool exclusiveAccess = false;
try {
exclusiveAccess = mutex.WaitOne(10, false);
} catch (AbandonedMutexException) { }
catch (InvalidOperationException) { }
// only read additional fans if we get exclusive access
if (exclusiveAccess)
{
f.Add(new Fan("Chassis Fan #2", 2));
f.Add(new Fan("Chassis Fan #3", 3));
f.Add(new Fan("Power Fan", 4));
readFan = (index) => {
if (index < 2)
{
return(superIO.Fans[index]);
}
else
{
// get GPIO 80-87
byte?gpio = superIO.ReadGPIO(7);
if (!gpio.HasValue)
{
return(null);
}
// read the last 3 fans based on GPIO 83-85
int[] masks = { 0x05, 0x03, 0x06 };
return((((gpio.Value >> 3) & 0x07) ==
masks[index - 2]) ? superIO.Fans[2] : null);
}
};
int fanIndex = 0;
postUpdate = () => {
// get GPIO 80-87
byte?gpio = superIO.ReadGPIO(7);
if (!gpio.HasValue)
{
return;
}
// prepare the GPIO 83-85 for the next update
int[] masks = { 0x05, 0x03, 0x06 };
superIO.WriteGPIO(7,
(byte)((gpio.Value & 0xC7) | (masks[fanIndex] << 3)));
fanIndex = (fanIndex + 1) % 3;
};
}
break;
default:
v.Add(new Voltage("CPU VCore", 0));
v.Add(new Voltage("Voltage #2", 1, true));
v.Add(new Voltage("Voltage #3", 2, true));
v.Add(new Voltage("Voltage #4", 3, true));
v.Add(new Voltage("Voltage #5", 4, true));
v.Add(new Voltage("Voltage #6", 5, true));
v.Add(new Voltage("Voltage #7", 6, true));
v.Add(new Voltage("Voltage #8", 7, true));
v.Add(new Voltage("VBat", 8));
for (int i = 0; i < superIO.Temperatures.Length; i++)
{
t.Add(new Temperature("Temperature #" + (i + 1), i));
}
for (int i = 0; i < superIO.Fans.Length; i++)
{
f.Add(new Fan("Fan #" + (i + 1), i));
}
break;
}
;
break;
case Manufacturer.DFI:
switch (model)
{
case Model.LP_BI_P45_T2RS_Elite: // IT8718F
v.Add(new Voltage("CPU VCore", 0));
v.Add(new Voltage("FSB VTT", 1));
v.Add(new Voltage("+3.3V", 2));
v.Add(new Voltage("+5V", 3, 6.8f, 10));
v.Add(new Voltage("+12V", 4, 30, 10));
v.Add(new Voltage("NB Core", 5));
v.Add(new Voltage("VDIMM", 6));
v.Add(new Voltage("+5VSB", 7, 6.8f, 10));
v.Add(new Voltage("VBat", 8));
t.Add(new Temperature("CPU", 0));
t.Add(new Temperature("System", 1));
t.Add(new Temperature("Chipset", 2));
f.Add(new Fan("Fan #1", 0));
f.Add(new Fan("Fan #2", 1));
f.Add(new Fan("Fan #3", 2));
break;
case Model.LP_DK_P55_T3eH9: // IT8720F
v.Add(new Voltage("CPU VCore", 0));
v.Add(new Voltage("VTT", 1));
v.Add(new Voltage("+3.3V", 2));
v.Add(new Voltage("+5V", 3, 6.8f, 10));
v.Add(new Voltage("+12V", 4, 30, 10));
v.Add(new Voltage("CPU PLL", 5));
v.Add(new Voltage("DRAM", 6));
v.Add(new Voltage("+5VSB", 7, 6.8f, 10));
v.Add(new Voltage("VBat", 8));
t.Add(new Temperature("Chipset", 0));
t.Add(new Temperature("CPU PWM", 1));
t.Add(new Temperature("CPU", 2));
f.Add(new Fan("Fan #1", 0));
f.Add(new Fan("Fan #2", 1));
f.Add(new Fan("Fan #3", 2));
break;
default:
v.Add(new Voltage("CPU VCore", 0));
v.Add(new Voltage("VTT", 1, true));
v.Add(new Voltage("+3.3V", 2, true));
v.Add(new Voltage("+5V", 3, 6.8f, 10, 0, true));
v.Add(new Voltage("+12V", 4, 30, 10, 0, true));
v.Add(new Voltage("Voltage #6", 5, true));
v.Add(new Voltage("DRAM", 6, true));
v.Add(new Voltage("+5VSB", 7, 6.8f, 10, 0, true));
v.Add(new Voltage("VBat", 8));
for (int i = 0; i < superIO.Temperatures.Length; i++)
{
t.Add(new Temperature("Temperature #" + (i + 1), i));
}
for (int i = 0; i < superIO.Fans.Length; i++)
{
f.Add(new Fan("Fan #" + (i + 1), i));
}
break;
}
break;
case Manufacturer.Gigabyte:
switch (model)
{
case Model._965P_S3: // IT8718F
v.Add(new Voltage("CPU VCore", 0));
v.Add(new Voltage("DRAM", 1));
v.Add(new Voltage("+3.3V", 2));
v.Add(new Voltage("+5V", 3, 6.8f, 10));
v.Add(new Voltage("+12V", 7, 27, 9.1f));
v.Add(new Voltage("VBat", 8));
t.Add(new Temperature("System", 0));
t.Add(new Temperature("CPU", 1));
f.Add(new Fan("CPU Fan", 0));
f.Add(new Fan("System Fan", 1));
break;
case Model.EP45_DS3R: // IT8718F
case Model.EP45_UD3R:
case Model.X38_DS5:
v.Add(new Voltage("CPU VCore", 0));
v.Add(new Voltage("DRAM", 1));
v.Add(new Voltage("+3.3V", 2));
v.Add(new Voltage("+5V", 3, 6.8f, 10));
v.Add(new Voltage("+12V", 7, 27, 9.1f));
v.Add(new Voltage("VBat", 8));
t.Add(new Temperature("System", 0));
t.Add(new Temperature("CPU", 1));
f.Add(new Fan("CPU Fan", 0));
f.Add(new Fan("System Fan #2", 1));
f.Add(new Fan("Power Fan", 2));
f.Add(new Fan("System Fan #1", 3));
break;
case Model.EX58_EXTREME: // IT8720F
v.Add(new Voltage("CPU VCore", 0));
v.Add(new Voltage("DRAM", 1));
v.Add(new Voltage("+5V", 3, 6.8f, 10));
v.Add(new Voltage("VBat", 8));
t.Add(new Temperature("System", 0));
t.Add(new Temperature("CPU", 1));
t.Add(new Temperature("Northbridge", 2));
f.Add(new Fan("CPU Fan", 0));
f.Add(new Fan("System Fan #2", 1));
f.Add(new Fan("Power Fan", 2));
f.Add(new Fan("System Fan #1", 3));
break;
case Model.P35_DS3: // IT8718F
case Model.P35_DS3L: // IT8718F
v.Add(new Voltage("CPU VCore", 0));
v.Add(new Voltage("DRAM", 1));
v.Add(new Voltage("+3.3V", 2));
v.Add(new Voltage("+5V", 3, 6.8f, 10));
v.Add(new Voltage("+12V", 7, 27, 9.1f));
v.Add(new Voltage("VBat", 8));
t.Add(new Temperature("System", 0));
t.Add(new Temperature("CPU", 1));
f.Add(new Fan("CPU Fan", 0));
f.Add(new Fan("System Fan #1", 1));
f.Add(new Fan("System Fan #2", 2));
f.Add(new Fan("Power Fan", 3));
break;
case Model.P55_UD4: // IT8720F
case Model.P55M_UD4: // IT8720F
v.Add(new Voltage("CPU VCore", 0));
v.Add(new Voltage("DRAM", 1));
v.Add(new Voltage("+3.3V", 2));
v.Add(new Voltage("+5V", 3, 6.8f, 10));
v.Add(new Voltage("+12V", 5, 27, 9.1f));
v.Add(new Voltage("VBat", 8));
t.Add(new Temperature("System", 0));
t.Add(new Temperature("CPU", 2));
f.Add(new Fan("CPU Fan", 0));
f.Add(new Fan("System Fan #2", 1));
f.Add(new Fan("Power Fan", 2));
f.Add(new Fan("System Fan #1", 3));
break;
case Model.GA_MA770T_UD3: // IT8720F
v.Add(new Voltage("CPU VCore", 0));
v.Add(new Voltage("DRAM", 1));
v.Add(new Voltage("+3.3V", 2));
v.Add(new Voltage("+5V", 3, 6.8f, 10));
v.Add(new Voltage("+12V", 4, 27, 9.1f));
v.Add(new Voltage("VBat", 8));
t.Add(new Temperature("System", 0));
t.Add(new Temperature("CPU", 1));
f.Add(new Fan("CPU Fan", 0));
f.Add(new Fan("System Fan #1", 1));
f.Add(new Fan("System Fan #2", 2));
f.Add(new Fan("Power Fan", 3));
break;
case Model.GA_MA785GMT_UD2H: // IT8718F
v.Add(new Voltage("CPU VCore", 0));
v.Add(new Voltage("DRAM", 1));
v.Add(new Voltage("+3.3V", 2));
v.Add(new Voltage("+5V", 3, 6.8f, 10));
v.Add(new Voltage("+12V", 4, 27, 9.1f));
v.Add(new Voltage("VBat", 8));
t.Add(new Temperature("System", 0));
t.Add(new Temperature("CPU", 1));
f.Add(new Fan("CPU Fan", 0));
f.Add(new Fan("System Fan", 1));
f.Add(new Fan("NB Fan", 2));
break;
case Model.X58A_UD3R: // IT8720F
v.Add(new Voltage("CPU VCore", 0));
v.Add(new Voltage("DRAM", 1));
v.Add(new Voltage("+3.3V", 2));
v.Add(new Voltage("+5V", 3, 6.8f, 10));
v.Add(new Voltage("+12V", 5, 27, 9.1f));
v.Add(new Voltage("VBat", 8));
t.Add(new Temperature("System", 0));
t.Add(new Temperature("CPU", 1));
t.Add(new Temperature("Northbridge", 2));
f.Add(new Fan("CPU Fan", 0));
f.Add(new Fan("System Fan #2", 1));
f.Add(new Fan("Power Fan", 2));
f.Add(new Fan("System Fan #1", 3));
break;
default:
v.Add(new Voltage("CPU VCore", 0));
v.Add(new Voltage("DRAM", 1, true));
v.Add(new Voltage("+3.3V", 2, true));
v.Add(new Voltage("+5V", 3, 6.8f, 10, 0, true));
v.Add(new Voltage("Voltage #5", 4, true));
v.Add(new Voltage("Voltage #6", 5, true));
v.Add(new Voltage("Voltage #7", 6, true));
v.Add(new Voltage("Voltage #8", 7, true));
v.Add(new Voltage("VBat", 8));
for (int i = 0; i < superIO.Temperatures.Length; i++)
{
t.Add(new Temperature("Temperature #" + (i + 1), i));
}
for (int i = 0; i < superIO.Fans.Length; i++)
{
f.Add(new Fan("Fan #" + (i + 1), i));
}
break;
}
break;
default:
v.Add(new Voltage("CPU VCore", 0));
v.Add(new Voltage("Voltage #2", 1, true));
v.Add(new Voltage("Voltage #3", 2, true));
v.Add(new Voltage("Voltage #4", 3, true));
v.Add(new Voltage("Voltage #5", 4, true));
v.Add(new Voltage("Voltage #6", 5, true));
v.Add(new Voltage("Voltage #7", 6, true));
v.Add(new Voltage("Voltage #8", 7, true));
v.Add(new Voltage("VBat", 8));
for (int i = 0; i < superIO.Temperatures.Length; i++)
{
t.Add(new Temperature("Temperature #" + (i + 1), i));
}
for (int i = 0; i < superIO.Fans.Length; i++)
{
f.Add(new Fan("Fan #" + (i + 1), i));
}
break;
}
break;
case Chip.IT8721F:
switch (manufacturer)
{
case Manufacturer.ECS:
switch (model)
{
case Model.A890GXM_A: // IT8721F
v.Add(new Voltage("CPU VCore", 0));
v.Add(new Voltage("VDIMM", 1));
v.Add(new Voltage("NB Voltage", 2));
v.Add(new Voltage("Analog +3.3V", 3, 10, 10));
// v.Add(new Voltage("VDIMM", 6, true));
v.Add(new Voltage("Standby +3.3V", 7, 10, 10));
v.Add(new Voltage("VBat", 8, 10, 10));
t.Add(new Temperature("CPU", 0));
t.Add(new Temperature("System", 1));
t.Add(new Temperature("Northbridge", 2));
f.Add(new Fan("CPU Fan", 0));
f.Add(new Fan("System Fan", 1));
f.Add(new Fan("Power Fan", 2));
break;
default:
v.Add(new Voltage("Voltage #1", 0, true));
v.Add(new Voltage("Voltage #2", 1, true));
v.Add(new Voltage("Voltage #3", 2, true));
v.Add(new Voltage("Analog +3.3V", 3, 10, 10, 0, true));
v.Add(new Voltage("Voltage #5", 4, true));
v.Add(new Voltage("Voltage #6", 5, true));
v.Add(new Voltage("Voltage #7", 6, true));
v.Add(new Voltage("Standby +3.3V", 7, 10, 10, 0, true));
v.Add(new Voltage("VBat", 8, 10, 10));
for (int i = 0; i < superIO.Temperatures.Length; i++)
{
t.Add(new Temperature("Temperature #" + (i + 1), i));
}
for (int i = 0; i < superIO.Fans.Length; i++)
{
f.Add(new Fan("Fan #" + (i + 1), i));
}
break;
}
break;
default:
v.Add(new Voltage("Voltage #1", 0, true));
v.Add(new Voltage("Voltage #2", 1, true));
v.Add(new Voltage("Voltage #3", 2, true));
v.Add(new Voltage("Analog +3.3V", 3, 10, 10, 0, true));
v.Add(new Voltage("Voltage #5", 4, true));
v.Add(new Voltage("Voltage #6", 5, true));
v.Add(new Voltage("Voltage #7", 6, true));
v.Add(new Voltage("Standby +3.3V", 7, 10, 10, 0, true));
v.Add(new Voltage("VBat", 8, 10, 10));
for (int i = 0; i < superIO.Temperatures.Length; i++)
{
t.Add(new Temperature("Temperature #" + (i + 1), i));
}
for (int i = 0; i < superIO.Fans.Length; i++)
{
f.Add(new Fan("Fan #" + (i + 1), i));
}
break;
}
break;
case Chip.F71858:
v.Add(new Voltage("VCC3V", 0, 150, 150));
v.Add(new Voltage("VSB3V", 1, 150, 150));
v.Add(new Voltage("Battery", 2, 150, 150));
for (int i = 0; i < superIO.Temperatures.Length; i++)
{
t.Add(new Temperature("Temperature #" + (i + 1), i));
}
for (int i = 0; i < superIO.Fans.Length; i++)
{
f.Add(new Fan("Fan #" + (i + 1), i));
}
break;
case Chip.F71862:
case Chip.F71869:
case Chip.F71882:
case Chip.F71889ED:
case Chip.F71889F:
switch (manufacturer)
{
case Manufacturer.EVGA:
switch (model)
{
case Model.X58_SLI_Classified: // F71882
v.Add(new Voltage("VCC3V", 0, 150, 150));
v.Add(new Voltage("CPU VCore", 1, 47, 100));
v.Add(new Voltage("DIMM", 2, 47, 100));
v.Add(new Voltage("CPU VTT", 3, 24, 100));
v.Add(new Voltage("IOH Vcore", 4, 24, 100));
v.Add(new Voltage("+5V", 5, 51, 12));
v.Add(new Voltage("+12V", 6, 56, 6.8f));
v.Add(new Voltage("3VSB", 7, 150, 150));
v.Add(new Voltage("VBat", 8, 150, 150));
t.Add(new Temperature("CPU", 0));
t.Add(new Temperature("VREG", 1));
t.Add(new Temperature("System", 2));
f.Add(new Fan("CPU Fan", 0));
f.Add(new Fan("Power Fan", 1));
f.Add(new Fan("Chassis Fan", 2));
break;
default:
v.Add(new Voltage("VCC3V", 0, 150, 150));
v.Add(new Voltage("CPU VCore", 1));
v.Add(new Voltage("Voltage #3", 2, true));
v.Add(new Voltage("Voltage #4", 3, true));
v.Add(new Voltage("Voltage #5", 4, true));
v.Add(new Voltage("Voltage #6", 5, true));
v.Add(new Voltage("Voltage #7", 6, true));
v.Add(new Voltage("VSB3V", 7, 150, 150));
v.Add(new Voltage("VBat", 8, 150, 150));
for (int i = 0; i < superIO.Temperatures.Length; i++)
{
t.Add(new Temperature("Temperature #" + (i + 1), i));
}
for (int i = 0; i < superIO.Fans.Length; i++)
{
f.Add(new Fan("Fan #" + (i + 1), i));
}
break;
}
break;
default:
v.Add(new Voltage("VCC3V", 0, 150, 150));
v.Add(new Voltage("CPU VCore", 1));
v.Add(new Voltage("Voltage #3", 2, true));
v.Add(new Voltage("Voltage #4", 3, true));
v.Add(new Voltage("Voltage #5", 4, true));
v.Add(new Voltage("Voltage #6", 5, true));
v.Add(new Voltage("Voltage #7", 6, true));
v.Add(new Voltage("VSB3V", 7, 150, 150));
v.Add(new Voltage("VBat", 8, 150, 150));
for (int i = 0; i < superIO.Temperatures.Length; i++)
{
t.Add(new Temperature("Temperature #" + (i + 1), i));
}
for (int i = 0; i < superIO.Fans.Length; i++)
{
f.Add(new Fan("Fan #" + (i + 1), i));
}
break;
}
break;
case Chip.W83627EHF:
switch (manufacturer)
{
case Manufacturer.ASRock:
switch (model)
{
case Model.AOD790GX_128M: // W83627EHF
v.Add(new Voltage("CPU VCore", 0));
v.Add(new Voltage("Analog +3.3V", 2, 34, 34));
v.Add(new Voltage("+3.3V", 4, 10, 10));
v.Add(new Voltage("+5V", 5, 20, 10));
v.Add(new Voltage("+12V", 6, 28, 5));
v.Add(new Voltage("Standby +3.3V", 7, 34, 34));
v.Add(new Voltage("VBAT", 8, 34, 34));
t.Add(new Temperature("CPU", 0));
t.Add(new Temperature("Motherboard", 2));
f.Add(new Fan("CPU Fan", 0));
f.Add(new Fan("Chassis Fan", 1));
break;
default:
v.Add(new Voltage("CPU VCore", 0));
v.Add(new Voltage("Voltage #2", 1, true));
v.Add(new Voltage("AVCC", 2, 34, 34));
v.Add(new Voltage("3VCC", 3, 34, 34));
v.Add(new Voltage("Voltage #5", 4, true));
v.Add(new Voltage("Voltage #6", 5, true));
v.Add(new Voltage("Voltage #7", 6, true));
v.Add(new Voltage("3VSB", 7, 34, 34));
v.Add(new Voltage("VBAT", 8, 34, 34));
v.Add(new Voltage("Voltage #10", 9, true));
t.Add(new Temperature("CPU", 0));
t.Add(new Temperature("Auxiliary", 1));
t.Add(new Temperature("System", 2));
f.Add(new Fan("System Fan", 0));
f.Add(new Fan("CPU Fan", 1));
f.Add(new Fan("Auxiliary Fan", 2));
f.Add(new Fan("CPU Fan #2", 3));
f.Add(new Fan("Auxiliary Fan #2", 4));
break;
}
break;
default:
v.Add(new Voltage("CPU VCore", 0));
v.Add(new Voltage("Voltage #2", 1, true));
v.Add(new Voltage("AVCC", 2, 34, 34));
v.Add(new Voltage("3VCC", 3, 34, 34));
v.Add(new Voltage("Voltage #5", 4, true));
v.Add(new Voltage("Voltage #6", 5, true));
v.Add(new Voltage("Voltage #7", 6, true));
v.Add(new Voltage("3VSB", 7, 34, 34));
v.Add(new Voltage("VBAT", 8, 34, 34));
v.Add(new Voltage("Voltage #10", 9, true));
t.Add(new Temperature("CPU", 0));
t.Add(new Temperature("Auxiliary", 1));
t.Add(new Temperature("System", 2));
f.Add(new Fan("System Fan", 0));
f.Add(new Fan("CPU Fan", 1));
f.Add(new Fan("Auxiliary Fan", 2));
f.Add(new Fan("CPU Fan #2", 3));
f.Add(new Fan("Auxiliary Fan #2", 4));
break;
}
break;
case Chip.W83627DHG:
case Chip.W83627DHGP:
case Chip.W83667HG:
case Chip.W83667HGB:
switch (manufacturer)
{
case Manufacturer.ASRock:
switch (model)
{
case Model._880GMH_USB3: // W83627DHG-P
v.Add(new Voltage("CPU VCore", 0));
v.Add(new Voltage("+3.3V", 3, 34, 34));
v.Add(new Voltage("+5V", 5, 15, 7.5f));
v.Add(new Voltage("+12V", 6, 56, 10));
v.Add(new Voltage("Standby +3.3V", 7, 34, 34));
v.Add(new Voltage("VBAT", 8, 34, 34));
t.Add(new Temperature("CPU", 0));
t.Add(new Temperature("Motherboard", 2));
f.Add(new Fan("Chassis Fan", 0));
f.Add(new Fan("CPU Fan", 1));
f.Add(new Fan("Power Fan", 2));
break;
default:
v.Add(new Voltage("CPU VCore", 0));
v.Add(new Voltage("Voltage #2", 1, true));
v.Add(new Voltage("AVCC", 2, 34, 34));
v.Add(new Voltage("3VCC", 3, 34, 34));
v.Add(new Voltage("Voltage #5", 4, true));
v.Add(new Voltage("Voltage #6", 5, true));
v.Add(new Voltage("Voltage #7", 6, true));
v.Add(new Voltage("3VSB", 7, 34, 34));
v.Add(new Voltage("VBAT", 8, 34, 34));
t.Add(new Temperature("CPU", 0));
t.Add(new Temperature("Auxiliary", 1));
t.Add(new Temperature("System", 2));
f.Add(new Fan("System Fan", 0));
f.Add(new Fan("CPU Fan", 1));
f.Add(new Fan("Auxiliary Fan", 2));
f.Add(new Fan("CPU Fan #2", 3));
f.Add(new Fan("Auxiliary Fan #2", 4));
break;
}
break;
case Manufacturer.ASUS:
switch (model)
{
case Model.P6X58D_E: // W83667HG
case Model.Rampage_II_GENE: // W83667HG
v.Add(new Voltage("CPU VCore", 0));
v.Add(new Voltage("+12V", 1, 11.5f, 1.91f));
v.Add(new Voltage("Analog +3.3V", 2, 34, 34));
v.Add(new Voltage("+3.3V", 3, 34, 34));
v.Add(new Voltage("+5V", 4, 15, 7.5f));
v.Add(new Voltage("Standby +3.3V", 7, 34, 34));
v.Add(new Voltage("VBAT", 8, 34, 34));
t.Add(new Temperature("CPU", 0));
t.Add(new Temperature("Motherboard", 2));
f.Add(new Fan("Chassis Fan #1", 0));
f.Add(new Fan("CPU Fan", 1));
f.Add(new Fan("Power Fan", 2));
f.Add(new Fan("Chassis Fan #2", 3));
f.Add(new Fan("Chassis Fan #3", 4));
break;
case Model.Rampage_Extreme: // W83667HG
v.Add(new Voltage("CPU VCore", 0));
v.Add(new Voltage("+12V", 1, 12, 2));
v.Add(new Voltage("Analog +3.3V", 2, 34, 34));
v.Add(new Voltage("+3.3V", 3, 34, 34));
v.Add(new Voltage("+5V", 4, 15, 7.5f));
v.Add(new Voltage("Standby +3.3V", 7, 34, 34));
v.Add(new Voltage("VBAT", 8, 34, 34));
t.Add(new Temperature("CPU", 0));
t.Add(new Temperature("Motherboard", 2));
f.Add(new Fan("Chassis Fan #1", 0));
f.Add(new Fan("CPU Fan", 1));
f.Add(new Fan("Power Fan", 2));
f.Add(new Fan("Chassis Fan #2", 3));
f.Add(new Fan("Chassis Fan #3", 4));
break;
default:
v.Add(new Voltage("CPU VCore", 0));
v.Add(new Voltage("Voltage #2", 1, true));
v.Add(new Voltage("AVCC", 2, 34, 34));
v.Add(new Voltage("3VCC", 3, 34, 34));
v.Add(new Voltage("Voltage #5", 4, true));
v.Add(new Voltage("Voltage #6", 5, true));
v.Add(new Voltage("Voltage #7", 6, true));
v.Add(new Voltage("3VSB", 7, 34, 34));
v.Add(new Voltage("VBAT", 8, 34, 34));
t.Add(new Temperature("CPU", 0));
t.Add(new Temperature("Auxiliary", 1));
t.Add(new Temperature("System", 2));
f.Add(new Fan("System Fan", 0));
f.Add(new Fan("CPU Fan", 1));
f.Add(new Fan("Auxiliary Fan", 2));
f.Add(new Fan("CPU Fan #2", 3));
f.Add(new Fan("Auxiliary Fan #2", 4));
break;
}
break;
default:
v.Add(new Voltage("CPU VCore", 0));
v.Add(new Voltage("Voltage #2", 1, true));
v.Add(new Voltage("AVCC", 2, 34, 34));
v.Add(new Voltage("3VCC", 3, 34, 34));
v.Add(new Voltage("Voltage #5", 4, true));
v.Add(new Voltage("Voltage #6", 5, true));
v.Add(new Voltage("Voltage #7", 6, true));
v.Add(new Voltage("3VSB", 7, 34, 34));
v.Add(new Voltage("VBAT", 8, 34, 34));
t.Add(new Temperature("CPU", 0));
t.Add(new Temperature("Auxiliary", 1));
t.Add(new Temperature("System", 2));
f.Add(new Fan("System Fan", 0));
f.Add(new Fan("CPU Fan", 1));
f.Add(new Fan("Auxiliary Fan", 2));
f.Add(new Fan("CPU Fan #2", 3));
f.Add(new Fan("Auxiliary Fan #2", 4));
break;
}
break;
case Chip.W83627HF:
case Chip.W83627THF:
case Chip.W83687THF:
v.Add(new Voltage("CPU VCore", 0));
v.Add(new Voltage("Voltage #2", 1, true));
v.Add(new Voltage("Voltage #3", 2, true));
v.Add(new Voltage("AVCC", 3, 34, 51));
v.Add(new Voltage("Voltage #5", 4, true));
v.Add(new Voltage("5VSB", 5, 34, 51));
v.Add(new Voltage("VBAT", 6));
t.Add(new Temperature("CPU", 0));
t.Add(new Temperature("Auxiliary", 1));
t.Add(new Temperature("System", 2));
f.Add(new Fan("System Fan", 0));
f.Add(new Fan("CPU Fan", 1));
f.Add(new Fan("Auxiliary Fan", 2));
break;
case Chip.NCT6771F:
case Chip.NCT6776F:
switch (manufacturer)
{
case Manufacturer.ASUS:
switch (model)
{
case Model.P8P67_PRO: // NCT6776F
v.Add(new Voltage("CPU VCore", 0));
v.Add(new Voltage("Voltage #2", 1, true));
v.Add(new Voltage("AVCC", 2, 34, 34));
v.Add(new Voltage("3VCC", 3, 34, 34));
v.Add(new Voltage("Voltage #5", 4, true));
v.Add(new Voltage("Voltage #6", 5, true));
v.Add(new Voltage("Voltage #7", 6, true));
v.Add(new Voltage("3VSB", 7, 34, 34));
v.Add(new Voltage("VBAT", 8, 34, 34));
t.Add(new Temperature("CPU", 0));
t.Add(new Temperature("Auxiliary", 1));
t.Add(new Temperature("System", 2));
f.Add(new Fan("System Fan", 0));
f.Add(new Fan("CPU Fan", 1));
f.Add(new Fan("Auxiliary Fan", 2));
f.Add(new Fan("Auxiliary Fan #2", 3));
f.Add(new Fan("Auxiliary Fan #3", 4));
break;
default:
v.Add(new Voltage("CPU VCore", 0));
v.Add(new Voltage("Voltage #2", 1, true));
v.Add(new Voltage("AVCC", 2, 34, 34));
v.Add(new Voltage("3VCC", 3, 34, 34));
v.Add(new Voltage("Voltage #5", 4, true));
v.Add(new Voltage("Voltage #6", 5, true));
v.Add(new Voltage("Voltage #7", 6, true));
v.Add(new Voltage("3VSB", 7, 34, 34));
v.Add(new Voltage("VBAT", 8, 34, 34));
t.Add(new Temperature("CPU", 0));
t.Add(new Temperature("Auxiliary", 1));
t.Add(new Temperature("System", 2));
for (int i = 0; i < superIO.Fans.Length; i++)
{
f.Add(new Fan("Fan #" + (i + 1), i));
}
break;
}
break;
default:
v.Add(new Voltage("CPU VCore", 0));
v.Add(new Voltage("Voltage #2", 1, true));
v.Add(new Voltage("AVCC", 2, 34, 34));
v.Add(new Voltage("3VCC", 3, 34, 34));
v.Add(new Voltage("Voltage #5", 4, true));
v.Add(new Voltage("Voltage #6", 5, true));
v.Add(new Voltage("Voltage #7", 6, true));
v.Add(new Voltage("3VSB", 7, 34, 34));
v.Add(new Voltage("VBAT", 8, 34, 34));
t.Add(new Temperature("CPU", 0));
t.Add(new Temperature("Auxiliary", 1));
t.Add(new Temperature("System", 2));
for (int i = 0; i < superIO.Fans.Length; i++)
{
f.Add(new Fan("Fan #" + (i + 1), i));
}
break;
}
break;
default:
for (int i = 0; i < superIO.Voltages.Length; i++)
{
v.Add(new Voltage("Voltage #" + (i + 1), i, true));
}
for (int i = 0; i < superIO.Temperatures.Length; i++)
{
t.Add(new Temperature("Temperature #" + (i + 1), i));
}
for (int i = 0; i < superIO.Fans.Length; i++)
{
f.Add(new Fan("Fan #" + (i + 1), i));
}
break;
}
const string formula = "Voltage = value + (value - Vf) * Ri / Rf.";
foreach (Voltage voltage in v)
{
if (voltage.Index < superIO.Voltages.Length)
{
Sensor sensor = new Sensor(voltage.Name, voltage.Index,
voltage.Hidden, SensorType.Voltage, this, new [] {
new ParameterDescription("Ri [kΩ]", "Input resistance.\n" +
formula, voltage.Ri),
new ParameterDescription("Rf [kΩ]", "Reference resistance.\n" +
formula, voltage.Rf),
new ParameterDescription("Vf [V]", "Reference voltage.\n" +
formula, voltage.Vf)
}, settings);
voltages.Add(sensor);
}
}
foreach (Temperature temperature in t)
{
if (temperature.Index < superIO.Temperatures.Length)
{
Sensor sensor = new Sensor(temperature.Name, temperature.Index,
SensorType.Temperature, this, new [] {
new ParameterDescription("Offset [°C]", "Temperature offset.", 0)
}, settings);
temperatures.Add(sensor);
}
}
foreach (Fan fan in f)
{
if (fan.Index < superIO.Fans.Length)
{
Sensor sensor = new Sensor(fan.Name, fan.Index, SensorType.Fan,
this, settings);
fans.Add(sensor);
}
}
}
public MoveChip(ChipName name, ActionType _action) : base(name, ChipType.ACTION)
{
actionType = (int)_action;
}
///<summary> 名前からインスタンスを作成して、追加 </summary>
public bool SetNext(Node parent, ChipName name, int index = 0)
{
Chip chip = ChipFactory.GetInstance(name);
return(SetNext(parent, chip, index));
}
public TurnChip(ChipName name) : base(name, ChipType.ACTION)
{
}
public SuperIOHardware(Mainboard mainboard, ISuperIO superIO,
Manufacturer manufacturer, Model model, ISettings settings)
{
this.mainboard = mainboard;
this.superIO = superIO;
this.name = ChipName.GetName(superIO.Chip);
List <Voltage> v = new List <Voltage>();
List <Temperature> t = new List <Temperature>();
List <Fan> f = new List <Fan>();
switch (superIO.Chip)
{
case Chip.IT8712F:
case Chip.IT8716F:
case Chip.IT8718F:
case Chip.IT8720F:
case Chip.IT8726F:
switch (manufacturer)
{
case Manufacturer.ASUS:
switch (model)
{
case Model.Crosshair_III_Formula: // IT8720F
v.Add(new Voltage("VBat", 8));
t.Add(new Temperature("CPU", 0));
for (int i = 0; i < superIO.Fans.Length; i++)
{
f.Add(new Fan("Fan #" + (i + 1), i));
}
break;
case Model.M2N_SLI_DELUXE:
v.Add(new Voltage("CPU VCore", 0));
v.Add(new Voltage("+3.3V", 1));
v.Add(new Voltage("+5V", 3, 6.8f, 10));
v.Add(new Voltage("+12V", 4, 30, 10));
v.Add(new Voltage("+5VSB", 7, 6.8f, 10));
v.Add(new Voltage("VBat", 8));
t.Add(new Temperature("CPU", 0));
t.Add(new Temperature("Motherboard", 1));
f.Add(new Fan("CPU Fan", 0));
f.Add(new Fan("Chassis Fan #1", 1));
f.Add(new Fan("Power Fan", 2));
break;
case Model.M4A79XTD_EVO: // IT8720F
v.Add(new Voltage("+5V", 3, 6.8f, 10));
v.Add(new Voltage("VBat", 8));
t.Add(new Temperature("CPU", 0));
t.Add(new Temperature("Motherboard", 1));
f.Add(new Fan("CPU Fan", 0));
f.Add(new Fan("Chassis Fan #1", 1));
f.Add(new Fan("Chassis Fan #2", 2));
break;
default:
v.Add(new Voltage("CPU VCore", 0));
v.Add(new Voltage("Voltage #2", 1, true));
v.Add(new Voltage("Voltage #3", 2, true));
v.Add(new Voltage("Voltage #4", 3, true));
v.Add(new Voltage("Voltage #5", 4, true));
v.Add(new Voltage("Voltage #6", 5, true));
v.Add(new Voltage("Voltage #7", 6, true));
v.Add(new Voltage("Voltage #8", 7, true));
v.Add(new Voltage("VBat", 8));
for (int i = 0; i < superIO.Temperatures.Length; i++)
{
t.Add(new Temperature("Temperature #" + (i + 1), i));
}
for (int i = 0; i < superIO.Fans.Length; i++)
{
f.Add(new Fan("Fan #" + (i + 1), i));
}
break;
}
break;
case Manufacturer.DFI:
switch (model)
{
case Model.LP_BI_P45_T2RS_Elite: // IT8718F
v.Add(new Voltage("CPU VCore", 0));
v.Add(new Voltage("FSB VTT", 1));
v.Add(new Voltage("+3.3V", 2));
v.Add(new Voltage("+5V", 3, 6.8f, 10));
v.Add(new Voltage("+12V", 4, 30, 10));
v.Add(new Voltage("NB Core", 5));
v.Add(new Voltage("VDIMM", 6));
v.Add(new Voltage("+5VSB", 7, 6.8f, 10));
v.Add(new Voltage("VBat", 8));
t.Add(new Temperature("CPU", 0));
t.Add(new Temperature("System", 1));
t.Add(new Temperature("Chipset", 2));
f.Add(new Fan("Fan #1", 0));
f.Add(new Fan("Fan #2", 1));
f.Add(new Fan("Fan #3", 2));
break;
case Model.LP_DK_P55_T3eH9: // IT8720F
v.Add(new Voltage("CPU VCore", 0));
v.Add(new Voltage("VTT", 1));
v.Add(new Voltage("+3.3V", 2));
v.Add(new Voltage("+5V", 3, 6.8f, 10));
v.Add(new Voltage("+12V", 4, 30, 10));
v.Add(new Voltage("CPU PLL", 5));
v.Add(new Voltage("DRAM", 6));
v.Add(new Voltage("+5VSB", 7, 6.8f, 10));
v.Add(new Voltage("VBat", 8));
t.Add(new Temperature("Chipset", 0));
t.Add(new Temperature("CPU PWM", 1));
t.Add(new Temperature("CPU", 2));
f.Add(new Fan("Fan #1", 0));
f.Add(new Fan("Fan #2", 1));
f.Add(new Fan("Fan #3", 2));
break;
default:
v.Add(new Voltage("CPU VCore", 0));
v.Add(new Voltage("VTT", 1, true));
v.Add(new Voltage("+3.3V", 2, true));
v.Add(new Voltage("+5V", 3, 6.8f, 10, 0, true));
v.Add(new Voltage("+12V", 4, 30, 10, 0, true));
v.Add(new Voltage("Voltage #6", 5, true));
v.Add(new Voltage("DRAM", 6, true));
v.Add(new Voltage("+5VSB", 7, 6.8f, 10, 0, true));
v.Add(new Voltage("VBat", 8));
for (int i = 0; i < superIO.Temperatures.Length; i++)
{
t.Add(new Temperature("Temperature #" + (i + 1), i));
}
for (int i = 0; i < superIO.Fans.Length; i++)
{
f.Add(new Fan("Fan #" + (i + 1), i));
}
break;
}
break;
case Manufacturer.Gigabyte:
switch (model)
{
case Model._965P_S3: // IT8718F
v.Add(new Voltage("CPU VCore", 0));
v.Add(new Voltage("DRAM", 1));
v.Add(new Voltage("+3.3V", 2));
v.Add(new Voltage("+5V", 3, 6.8f, 10));
v.Add(new Voltage("+12V", 7, 27, 9.1f));
v.Add(new Voltage("VBat", 8));
t.Add(new Temperature("System", 0));
t.Add(new Temperature("CPU", 1));
f.Add(new Fan("CPU Fan", 0));
f.Add(new Fan("System Fan", 1));
break;
case Model.EP45_DS3R: // IT8718F
case Model.EP45_UD3R:
case Model.X38_DS5:
v.Add(new Voltage("CPU VCore", 0));
v.Add(new Voltage("DRAM", 1));
v.Add(new Voltage("+3.3V", 2));
v.Add(new Voltage("+5V", 3, 6.8f, 10));
v.Add(new Voltage("+12V", 7, 27, 9.1f));
v.Add(new Voltage("VBat", 8));
t.Add(new Temperature("System", 0));
t.Add(new Temperature("CPU", 1));
f.Add(new Fan("CPU Fan", 0));
f.Add(new Fan("System Fan #2", 1));
f.Add(new Fan("Power Fan", 2));
f.Add(new Fan("System Fan #1", 3));
break;
case Model.EX58_EXTREME: // IT8720F
v.Add(new Voltage("CPU VCore", 0));
v.Add(new Voltage("DRAM", 1));
v.Add(new Voltage("+5V", 3, 6.8f, 10));
v.Add(new Voltage("VBat", 8));
t.Add(new Temperature("System", 0));
t.Add(new Temperature("CPU", 1));
t.Add(new Temperature("Northbridge", 2));
f.Add(new Fan("CPU Fan", 0));
f.Add(new Fan("System Fan #2", 1));
f.Add(new Fan("Power Fan", 2));
f.Add(new Fan("System Fan #1", 3));
break;
case Model.P35_DS3: // IT8718F
case Model.P35_DS3L: // IT8718F
v.Add(new Voltage("CPU VCore", 0));
v.Add(new Voltage("DRAM", 1));
v.Add(new Voltage("+3.3V", 2));
v.Add(new Voltage("+5V", 3, 6.8f, 10));
v.Add(new Voltage("+12V", 7, 27, 9.1f));
v.Add(new Voltage("VBat", 8));
t.Add(new Temperature("System", 0));
t.Add(new Temperature("CPU", 1));
f.Add(new Fan("CPU Fan", 0));
f.Add(new Fan("System Fan #1", 1));
f.Add(new Fan("System Fan #2", 2));
f.Add(new Fan("Power Fan", 3));
break;
case Model.P55_UD4: // IT8720F
case Model.P55M_UD4: // IT8720F
v.Add(new Voltage("CPU VCore", 0));
v.Add(new Voltage("DRAM", 1));
v.Add(new Voltage("+3.3V", 2));
v.Add(new Voltage("+5V", 3, 6.8f, 10));
v.Add(new Voltage("+12V", 5, 27, 9.1f));
v.Add(new Voltage("VBat", 8));
t.Add(new Temperature("System", 0));
t.Add(new Temperature("CPU", 2));
f.Add(new Fan("CPU Fan", 0));
f.Add(new Fan("System Fan #2", 1));
f.Add(new Fan("Power Fan", 2));
f.Add(new Fan("System Fan #1", 3));
break;
case Model.GA_MA770T_UD3: // IT8720F
v.Add(new Voltage("CPU VCore", 0));
v.Add(new Voltage("DRAM", 1));
v.Add(new Voltage("+3.3V", 2));
v.Add(new Voltage("+5V", 3, 6.8f, 10));
v.Add(new Voltage("+12V", 4, 27, 9.1f));
v.Add(new Voltage("VBat", 8));
t.Add(new Temperature("System", 0));
t.Add(new Temperature("CPU", 1));
f.Add(new Fan("CPU Fan", 0));
f.Add(new Fan("System Fan #1", 1));
f.Add(new Fan("System Fan #2", 2));
f.Add(new Fan("Power Fan", 3));
break;
case Model.GA_MA785GMT_UD2H: // IT8718F
v.Add(new Voltage("CPU VCore", 0));
v.Add(new Voltage("DRAM", 1));
v.Add(new Voltage("+3.3V", 2));
v.Add(new Voltage("+5V", 3, 6.8f, 10));
v.Add(new Voltage("+12V", 4, 27, 9.1f));
v.Add(new Voltage("VBat", 8));
t.Add(new Temperature("System", 0));
t.Add(new Temperature("CPU", 1));
f.Add(new Fan("CPU Fan", 0));
f.Add(new Fan("System Fan", 1));
f.Add(new Fan("NB Fan", 2));
break;
case Model.X58A_UD3R: // IT8720F
v.Add(new Voltage("CPU VCore", 0));
v.Add(new Voltage("DRAM", 1));
v.Add(new Voltage("+3.3V", 2));
v.Add(new Voltage("+5V", 3, 6.8f, 10));
v.Add(new Voltage("+12V", 5, 27, 9.1f));
v.Add(new Voltage("VBat", 8));
t.Add(new Temperature("System", 0));
t.Add(new Temperature("CPU", 1));
t.Add(new Temperature("Northbridge", 2));
f.Add(new Fan("CPU Fan", 0));
f.Add(new Fan("System Fan #2", 1));
f.Add(new Fan("Power Fan", 2));
f.Add(new Fan("System Fan #1", 3));
break;
default:
v.Add(new Voltage("CPU VCore", 0));
v.Add(new Voltage("DRAM", 1, true));
v.Add(new Voltage("+3.3V", 2, true));
v.Add(new Voltage("+5V", 3, 6.8f, 10, 0, true));
v.Add(new Voltage("Voltage #5", 4, true));
v.Add(new Voltage("Voltage #6", 5, true));
v.Add(new Voltage("Voltage #7", 6, true));
v.Add(new Voltage("+12V", 7, 27, 9.1f, 0, true));
v.Add(new Voltage("VBat", 8));
for (int i = 0; i < superIO.Temperatures.Length; i++)
{
t.Add(new Temperature("Temperature #" + (i + 1), i));
}
for (int i = 0; i < superIO.Fans.Length; i++)
{
f.Add(new Fan("Fan #" + (i + 1), i));
}
break;
}
break;
default:
v.Add(new Voltage("CPU VCore", 0));
v.Add(new Voltage("Voltage #2", 1, true));
v.Add(new Voltage("Voltage #3", 2, true));
v.Add(new Voltage("Voltage #4", 3, true));
v.Add(new Voltage("Voltage #5", 4, true));
v.Add(new Voltage("Voltage #6", 5, true));
v.Add(new Voltage("Voltage #7", 6, true));
v.Add(new Voltage("Voltage #8", 7, true));
v.Add(new Voltage("VBat", 8));
for (int i = 0; i < superIO.Temperatures.Length; i++)
{
t.Add(new Temperature("Temperature #" + (i + 1), i));
}
for (int i = 0; i < superIO.Fans.Length; i++)
{
f.Add(new Fan("Fan #" + (i + 1), i));
}
break;
}
break;
case Chip.IT8721F:
switch (manufacturer)
{
case Manufacturer.ECS:
switch (model)
{
case Model.A890GXM_A: // IT8721F
v.Add(new Voltage("CPU VCore", 0));
v.Add(new Voltage("VDIMM", 1));
v.Add(new Voltage("NB Voltage", 2));
v.Add(new Voltage("Analog +3.3V", 3, 10, 10));
// v.Add(new Voltage("VDIMM", 6, true));
v.Add(new Voltage("Standby +3.3V", 7, 10, 10));
v.Add(new Voltage("VBat", 8, 10, 10));
t.Add(new Temperature("CPU", 0));
t.Add(new Temperature("System", 1));
t.Add(new Temperature("Northbridge", 2));
f.Add(new Fan("CPU Fan", 0));
f.Add(new Fan("System Fan", 1));
f.Add(new Fan("Power Fan", 2));
break;
default:
v.Add(new Voltage("Voltage #1", 0, true));
v.Add(new Voltage("Voltage #2", 1, true));
v.Add(new Voltage("Voltage #3", 2, true));
v.Add(new Voltage("Analog +3.3V", 3, 10, 10, 0, true));
v.Add(new Voltage("Voltage #5", 4, true));
v.Add(new Voltage("Voltage #6", 5, true));
v.Add(new Voltage("Voltage #7", 6, true));
v.Add(new Voltage("Standby +3.3V", 7, 10, 10, 0, true));
v.Add(new Voltage("VBat", 8, 10, 10));
for (int i = 0; i < superIO.Temperatures.Length; i++)
{
t.Add(new Temperature("Temperature #" + (i + 1), i));
}
for (int i = 0; i < superIO.Fans.Length; i++)
{
f.Add(new Fan("Fan #" + (i + 1), i));
}
break;
}
break;
default:
v.Add(new Voltage("Voltage #1", 0, true));
v.Add(new Voltage("Voltage #2", 1, true));
v.Add(new Voltage("Voltage #3", 2, true));
v.Add(new Voltage("Analog +3.3V", 3, 10, 10, 0, true));
v.Add(new Voltage("Voltage #5", 4, true));
v.Add(new Voltage("Voltage #6", 5, true));
v.Add(new Voltage("Voltage #7", 6, true));
v.Add(new Voltage("Standby +3.3V", 7, 10, 10, 0, true));
v.Add(new Voltage("VBat", 8, 10, 10));
for (int i = 0; i < superIO.Temperatures.Length; i++)
{
t.Add(new Temperature("Temperature #" + (i + 1), i));
}
for (int i = 0; i < superIO.Fans.Length; i++)
{
f.Add(new Fan("Fan #" + (i + 1), i));
}
break;
}
break;
case Chip.F71858:
v.Add(new Voltage("VCC3V", 0, 150, 150));
v.Add(new Voltage("VSB3V", 1, 150, 150));
v.Add(new Voltage("Battery", 2, 150, 150));
for (int i = 0; i < superIO.Temperatures.Length; i++)
{
t.Add(new Temperature("Temperature #" + (i + 1), i));
}
for (int i = 0; i < superIO.Fans.Length; i++)
{
f.Add(new Fan("Fan #" + (i + 1), i));
}
break;
case Chip.F71862:
case Chip.F71869:
case Chip.F71882:
case Chip.F71889ED:
case Chip.F71889F:
switch (manufacturer)
{
case Manufacturer.EVGA:
switch (model)
{
case Model.X58_SLI_Classified: // F71882
v.Add(new Voltage("VCC3V", 0, 150, 150));
v.Add(new Voltage("CPU VCore", 1, 47, 100));
v.Add(new Voltage("DIMM", 2, 47, 100));
v.Add(new Voltage("CPU VTT", 3, 24, 100));
v.Add(new Voltage("IOH Vcore", 4, 24, 100));
v.Add(new Voltage("+5V", 5, 51, 12));
v.Add(new Voltage("+12V", 6, 56, 6.8f));
v.Add(new Voltage("3VSB", 7, 150, 150));
v.Add(new Voltage("VBat", 8, 150, 150));
t.Add(new Temperature("CPU", 0));
t.Add(new Temperature("VREG", 1));
t.Add(new Temperature("System", 2));
f.Add(new Fan("CPU Fan", 0));
f.Add(new Fan("Power Fan", 1));
f.Add(new Fan("Chassis Fan", 2));
break;
default:
v.Add(new Voltage("VCC3V", 0, 150, 150));
v.Add(new Voltage("CPU VCore", 1));
v.Add(new Voltage("Voltage #3", 2, true));
v.Add(new Voltage("Voltage #4", 3, true));
v.Add(new Voltage("Voltage #5", 4, true));
v.Add(new Voltage("Voltage #6", 5, true));
v.Add(new Voltage("Voltage #7", 6, true));
v.Add(new Voltage("VSB3V", 7, 150, 150));
v.Add(new Voltage("VBat", 8, 150, 150));
for (int i = 0; i < superIO.Temperatures.Length; i++)
{
t.Add(new Temperature("Temperature #" + (i + 1), i));
}
for (int i = 0; i < superIO.Fans.Length; i++)
{
f.Add(new Fan("Fan #" + (i + 1), i));
}
break;
}
break;
default:
v.Add(new Voltage("VCC3V", 0, 150, 150));
v.Add(new Voltage("CPU VCore", 1));
v.Add(new Voltage("Voltage #3", 2, true));
v.Add(new Voltage("Voltage #4", 3, true));
v.Add(new Voltage("Voltage #5", 4, true));
v.Add(new Voltage("Voltage #6", 5, true));
v.Add(new Voltage("Voltage #7", 6, true));
v.Add(new Voltage("VSB3V", 7, 150, 150));
v.Add(new Voltage("VBat", 8, 150, 150));
for (int i = 0; i < superIO.Temperatures.Length; i++)
{
t.Add(new Temperature("Temperature #" + (i + 1), i));
}
for (int i = 0; i < superIO.Fans.Length; i++)
{
f.Add(new Fan("Fan #" + (i + 1), i));
}
break;
}
break;
case Chip.W83627EHF:
v.Add(new Voltage("CPU VCore", 0));
v.Add(new Voltage("Voltage #2", 1, true));
v.Add(new Voltage("AVCC", 2, 34, 34));
v.Add(new Voltage("3VCC", 3, 34, 34));
v.Add(new Voltage("Voltage #5", 4, true));
v.Add(new Voltage("Voltage #6", 5, true));
v.Add(new Voltage("Voltage #7", 6, true));
v.Add(new Voltage("3VSB", 7, 34, 34));
v.Add(new Voltage("VBAT", 8, 34, 34));
v.Add(new Voltage("Voltage #10", 9, true));
t.Add(new Temperature("CPU", 0));
t.Add(new Temperature("Auxiliary", 1));
t.Add(new Temperature("System", 2));
f.Add(new Fan("System Fan", 0));
f.Add(new Fan("CPU Fan", 1));
f.Add(new Fan("Auxiliary Fan", 2));
f.Add(new Fan("CPU Fan #2", 3));
f.Add(new Fan("Auxiliary Fan #2", 4));
break;
case Chip.W83627DHG:
case Chip.W83627DHGP:
case Chip.W83667HG:
case Chip.W83667HGB:
switch (manufacturer)
{
case Manufacturer.ASRock:
switch (model)
{
case Model._880GMH_USB3: // W83627DHG-P
v.Add(new Voltage("CPU VCore", 0));
v.Add(new Voltage("+3.3V", 3, 34, 34));
v.Add(new Voltage("+5V", 5, 15, 7.5f));
v.Add(new Voltage("+12V", 6, 56, 10));
v.Add(new Voltage("Standby +3.3V", 7, 34, 34));
v.Add(new Voltage("VBAT", 8, 34, 34));
t.Add(new Temperature("CPU", 0));
t.Add(new Temperature("Motherboard", 2));
f.Add(new Fan("Chassis Fan", 0));
f.Add(new Fan("CPU Fan", 1));
f.Add(new Fan("Power Fan", 2));
break;
default:
v.Add(new Voltage("CPU VCore", 0));
v.Add(new Voltage("Voltage #2", 1, true));
v.Add(new Voltage("AVCC", 2, 34, 34));
v.Add(new Voltage("3VCC", 3, 34, 34));
v.Add(new Voltage("Voltage #5", 4, true));
v.Add(new Voltage("Voltage #6", 5, true));
v.Add(new Voltage("Voltage #7", 6, true));
v.Add(new Voltage("3VSB", 7, 34, 34));
v.Add(new Voltage("VBAT", 8, 34, 34));
t.Add(new Temperature("CPU", 0));
t.Add(new Temperature("Auxiliary", 1));
t.Add(new Temperature("System", 2));
f.Add(new Fan("System Fan", 0));
f.Add(new Fan("CPU Fan", 1));
f.Add(new Fan("Auxiliary Fan", 2));
f.Add(new Fan("CPU Fan #2", 3));
f.Add(new Fan("Auxiliary Fan #2", 4));
break;
}
break;
case Manufacturer.ASUS:
switch (model)
{
case Model.P6X58D_E: // W83667HG
case Model.Rampage_II_GENE: // W83667HG
v.Add(new Voltage("CPU VCore", 0));
v.Add(new Voltage("+12V", 1, 11.5f, 1.91f));
v.Add(new Voltage("Analog +3.3V", 2, 34, 34));
v.Add(new Voltage("+3.3V", 3, 34, 34));
v.Add(new Voltage("+5V", 4, 15, 7.5f));
v.Add(new Voltage("Standby +3.3V", 7, 34, 34));
v.Add(new Voltage("VBAT", 8, 34, 34));
t.Add(new Temperature("CPU", 0));
t.Add(new Temperature("Motherboard", 2));
f.Add(new Fan("Chassis Fan #1", 0));
f.Add(new Fan("CPU Fan", 1));
f.Add(new Fan("Power Fan", 2));
f.Add(new Fan("Chassis Fan #2", 3));
f.Add(new Fan("Chassis Fan #3", 4));
break;
case Model.Rampage_Extreme: // W83667HG
v.Add(new Voltage("CPU VCore", 0));
v.Add(new Voltage("+12V", 1, 12, 2));
v.Add(new Voltage("Analog +3.3V", 2, 34, 34));
v.Add(new Voltage("+3.3V", 3, 34, 34));
v.Add(new Voltage("+5V", 4, 15, 7.5f));
v.Add(new Voltage("Standby +3.3V", 7, 34, 34));
v.Add(new Voltage("VBAT", 8, 34, 34));
t.Add(new Temperature("CPU", 0));
t.Add(new Temperature("Motherboard", 2));
f.Add(new Fan("Chassis Fan #1", 0));
f.Add(new Fan("CPU Fan", 1));
f.Add(new Fan("Power Fan", 2));
f.Add(new Fan("Chassis Fan #2", 3));
f.Add(new Fan("Chassis Fan #3", 4));
break;
default:
v.Add(new Voltage("CPU VCore", 0));
v.Add(new Voltage("Voltage #2", 1, true));
v.Add(new Voltage("AVCC", 2, 34, 34));
v.Add(new Voltage("3VCC", 3, 34, 34));
v.Add(new Voltage("Voltage #5", 4, true));
v.Add(new Voltage("Voltage #6", 5, true));
v.Add(new Voltage("Voltage #7", 6, true));
v.Add(new Voltage("3VSB", 7, 34, 34));
v.Add(new Voltage("VBAT", 8, 34, 34));
t.Add(new Temperature("CPU", 0));
t.Add(new Temperature("Auxiliary", 1));
t.Add(new Temperature("System", 2));
f.Add(new Fan("System Fan", 0));
f.Add(new Fan("CPU Fan", 1));
f.Add(new Fan("Auxiliary Fan", 2));
f.Add(new Fan("CPU Fan #2", 3));
f.Add(new Fan("Auxiliary Fan #2", 4));
break;
}
break;
default:
v.Add(new Voltage("CPU VCore", 0));
v.Add(new Voltage("Voltage #2", 1, true));
v.Add(new Voltage("AVCC", 2, 34, 34));
v.Add(new Voltage("3VCC", 3, 34, 34));
v.Add(new Voltage("Voltage #5", 4, true));
v.Add(new Voltage("Voltage #6", 5, true));
v.Add(new Voltage("Voltage #7", 6, true));
v.Add(new Voltage("3VSB", 7, 34, 34));
v.Add(new Voltage("VBAT", 8, 34, 34));
t.Add(new Temperature("CPU", 0));
t.Add(new Temperature("Auxiliary", 1));
t.Add(new Temperature("System", 2));
f.Add(new Fan("System Fan", 0));
f.Add(new Fan("CPU Fan", 1));
f.Add(new Fan("Auxiliary Fan", 2));
f.Add(new Fan("CPU Fan #2", 3));
f.Add(new Fan("Auxiliary Fan #2", 4));
break;
}
break;
case Chip.W83627HF:
case Chip.W83627THF:
case Chip.W83687THF:
v.Add(new Voltage("CPU VCore", 0));
v.Add(new Voltage("Voltage #2", 1, true));
v.Add(new Voltage("Voltage #3", 2, true));
v.Add(new Voltage("AVCC", 3, 34, 51));
v.Add(new Voltage("Voltage #5", 4, true));
v.Add(new Voltage("5VSB", 5, 34, 51));
v.Add(new Voltage("VBAT", 6));
t.Add(new Temperature("CPU", 0));
t.Add(new Temperature("Auxiliary", 1));
t.Add(new Temperature("System", 2));
f.Add(new Fan("System Fan", 0));
f.Add(new Fan("CPU Fan", 1));
f.Add(new Fan("Auxiliary Fan", 2));
break;
default:
for (int i = 0; i < superIO.Voltages.Length; i++)
{
v.Add(new Voltage("Voltage #" + (i + 1), i, true));
}
for (int i = 0; i < superIO.Temperatures.Length; i++)
{
t.Add(new Temperature("Temperature #" + (i + 1), i));
}
for (int i = 0; i < superIO.Fans.Length; i++)
{
f.Add(new Fan("Fan #" + (i + 1), i));
}
break;
}
const string formula = "Voltage = value + (value - Vf) * Ri / Rf.";
foreach (Voltage voltage in v)
{
if (voltage.Index < superIO.Voltages.Length)
{
Sensor sensor = new Sensor(voltage.Name, voltage.Index,
voltage.Hidden, SensorType.Voltage, this, new [] {
new ParameterDescription("Ri [kΩ]", "Input resistance.\n" +
formula, voltage.Ri),
new ParameterDescription("Rf [kΩ]", "Reference resistance.\n" +
formula, voltage.Rf),
new ParameterDescription("Vf [V]", "Reference voltage.\n" +
formula, voltage.Vf)
}, settings);
voltages.Add(sensor);
}
}
foreach (Temperature temperature in t)
{
if (temperature.Index < superIO.Temperatures.Length)
{
Sensor sensor = new Sensor(temperature.Name, temperature.Index,
SensorType.Temperature, this, new [] {
new ParameterDescription("Offset [°C]", "Temperature offset.", 0)
}, settings);
temperatures.Add(sensor);
}
}
foreach (Fan fan in f)
{
if (fan.Index < superIO.Fans.Length)
{
Sensor sensor = new Sensor(fan.Name, fan.Index, SensorType.Fan,
this, settings);
fans.Add(sensor);
}
}
}
public BatteryChip(ChipName name) : base(name, ChipType.SYSTEM)
{
}
public ColorChip(ChipName name) : base(name, ChipType.BOOL)
{
}
