공간벡터제어 적용

2017-09-07 01:21:33 +09:00 · 2017-09-07 01:21:33 +09:00 · 08e83afe52
parent ec0c7112b1
commit 08e83afe52
3 changed files with 211 additions and 17 deletions
--- a/main.go
+++ b/main.go
@ -15,7 +15,8 @@ import (
 	"sync"
 	"syscall"
 	"time"
-
+	"amuz.es/src/infra/cpu_ctrl/pid"
+	
 	"github.com/coreos/go-systemd/daemon"
 	"github.com/shirou/gopsutil/cpu"
 )
@ -92,10 +93,10 @@ func ReadTempeture(path string, senseChan chan<- float64, errorChan chan<- error
 	}
 }

-func CpuTempetureMonitoring(info *Processor, notifier chan<- TempetureChange, errorChan chan<- error, ctx context.Context, waiter *sync.WaitGroup) {
+func CpuTempetureMonitoring(info *Processor,sampleDuration time.Duration, notifier chan<- TempetureChange, errorChan chan<- error, ctx context.Context, waiter *sync.WaitGroup) {
 	defer waiter.Done()
 	tempeturePathGlob := path.Join(info.TempeturePath, "temp?_input")
-	ticker := time.Tick(3 * time.Second)
+	ticker := time.Tick(sampleDuration)
 	for {
 		select {
 		case <-ticker:
@ -129,31 +130,47 @@ func CpuTempetureMonitoring(info *Processor, notifier chan<- TempetureChange, er
 }
 func CpuTempetureScraper(processorCount int, notifier <-chan TempetureChange, errorChan chan<- error, ctx context.Context, waiter *sync.WaitGroup) {
 	defer waiter.Done()
-	pastFan := make([]int, processorCount)
+	var (
+		P,I,D=1.5, 0.4, 2.0
+		SetPoint=40.0
+		SampleTime=time.Second
+		WindupGuard=96.0
+		maxNoob,minNoob=0x64,0x4
+	)
+	noobs := make([]int,processorCount)
+	controllers := make([]pid.Controller, 0,processorCount)
+	for i:=0 ;i<processorCount;i++{
+		controller:=pid.New(PID)
+		controller.SetSetPoint(SetPoint)
+		controller.SetSampleTime(SampleTime)
+		controller.SetWindupGuard(WindupGuard)
+		controllers := append(controllers,controller)
+	}
+	
+	
 	for {
 		select {
 		case change := <-notifier:
-			delta := int(change.Tempeture) - 33
-			fan := 0x4 + (delta - delta%0x4)
-			if fan < 0x4 {
-				fan = 0x4
-			} else if fan > 0x50 {
-				fan = 0x0
+			controller:=controllers[change.Id]
+			resp:=controller.Update(change)
+			
+			adj_noob := -resp + minNoob
+			if adj_noob > maxNoob{
+				adj_noob=maxNoob
 			}

-			if pastFan[change.Id] != fan {
-				pastFan[change.Id] = fan
-			} else {
+			if noobs[change.Id]== adj_noob{
 				continue
 			}
+			noobs[change.Id]=adj_noob
+			fmt.Printf("cpu %d fan 0x%x\n", change.Id, adj_noob)

-			fmt.Printf("cpu %d fan 0x%x\n", change.Id, fan)
 			args := make([]string, 0)
 			args = append(args,
 				"raw",
 				"0x3a", "0x01",
 			)
-			for _, item := range pastFan {
+			for _, item := range noobs {
 				args = append(args, fmt.Sprintf("0x%x", item))
 			}
 			args = append(args,
@ -172,12 +189,13 @@ func CpuTempetureScraper(processorCount int, notifier <-chan TempetureChange, er

 func main() {
 	var (
-		processorCount  = 0 //getProcessorCount()
+		processorCount  = getProcessorCount()
 		ctx, canceled   = context.WithCancel(context.Background())
 		waiter          = &sync.WaitGroup{}
 		exitSignal      = make(chan os.Signal, 1)
 		errorChan       = make(chan error, 1)
 		tempetureChange = make(chan TempetureChange)
+		sampleDuration = time.Second
 	)

 	if processorCount == 0 {
@ -188,7 +206,7 @@ func main() {
 			errorChan <- err
 		} else {
 			waiter.Add(1)
-			go CpuTempetureMonitoring(info, tempetureChange, errorChan, ctx, waiter)
+			go CpuTempetureMonitoring(info,sampleDuration, tempetureChange, errorChan, ctx, waiter)
 		}
 	}
 	waiter.Add(1)
--- a/pid/pid.go
+++ b/pid/pid.go
@ -0,0 +1,126 @@
+package pid
+
+import (
+	"time"
+)
+
+type controller struct {
+	Kp          float64
+	Ki          float64
+	Kd          float64
+	lastTime    time.Time
+	SetPoint    float64
+	SampleTime  time.Duration
+	WindupGuard float64
+	Output      float64
+
+	pTerm     float64
+	iTerm     float64
+	dTerm     float64
+	lastError float64
+}
+
+/*
+PID Controller
+*/
+type Controller interface {
+	GetKp() float64
+	GetKi() float64
+	GetKd() float64
+	GetSetPoint() float64
+	GetSampleTime() time.Duration
+	GetWindupGuard() float64
+	GetOutput() float64
+
+	SetKp(float64)
+	SetKi(float64)
+	SetKd(float64)
+	SetSetPoint(float64)
+	SetSampleTime(time.Duration)
+	SetWindupGuard(float64)
+	SetOutput(float64)
+
+	Clear()
+	Update(float64) float64
+}
+
+/*
+create PID Controller
+*/
+func New(proportionalGain float64, integralGain float64, derivativeGain float64) Controller {
+	return &controller{
+		Kp:          proportionalGain,
+		Ki:          integralGain,
+		Kd:          derivativeGain,
+		WindupGuard: 20.0,
+		lastTime:    time.Now(),
+	}
+}
+
+/*
+Clears PID computations and coefficients
+*/
+func (c *controller) Clear() {
+	c.SetPoint = 0.0
+	c.pTerm = 0.0
+	c.iTerm = 0.0
+	c.dTerm = 0.0
+	c.lastError = 0.0
+	c.WindupGuard = 20.0
+	c.Output = 0.0
+}
+
+/*
+Calculates PID value for given reference feedback
+.. math::
+	u(t) = K_p e(t) + K_i \int_{0}^{t} e(t)dt + K_d {de}/{dt}
+
+.. figure:: images/pid_1.png
+	:align:   center
+
+	Test PID with Kp=1.2, Ki=1, Kd=0.001 (test_pid.py)
+*/
+func (c *controller) Update(feedbackValue float64) float64 {
+	var (
+		errorValue            = c.SetPoint - feedbackValue
+		currentTime           = time.Now()
+		deltaTime, deltaError = currentTime.Sub(c.lastTime), errorValue - c.lastError
+	)
+
+	if deltaTime >= c.SampleTime {
+		c.pTerm = c.Kp * errorValue
+		c.iTerm += errorValue * deltaTime.Seconds()
+
+		if c.iTerm < -c.WindupGuard {
+			c.iTerm = -c.WindupGuard
+		} else if c.iTerm > c.WindupGuard {
+			c.iTerm = c.WindupGuard
+		}
+
+		c.dTerm = 0.0
+		if deltaTime.Seconds() > 0.0 {
+			c.dTerm = deltaError / deltaTime.Seconds()
+		}
+		c.lastTime = currentTime
+		c.lastError = errorValue
+
+		c.Output = c.pTerm + (c.Ki * c.iTerm) + (c.Kd * c.dTerm)
+	}
+	return c.Output
+}
+
+func (c *controller) GetKp() float64               { return c.Kp }
+func (c *controller) GetKi() float64               { return c.Ki }
+func (c *controller) GetKd() float64               { return c.Kd }
+func (c *controller) GetSetPoint() float64         { return c.SetPoint }
+func (c *controller) GetSampleTime() time.Duration { return c.SampleTime }
+func (c *controller) GetWindupGuard() float64      { return c.WindupGuard }
+func (c *controller) GetOutput() float64           { return c.Output }
+
+func (c *controller) SetKp(v float64)               { c.Kp = v }
+func (c *controller) SetKi(v float64)               { c.Ki = v }
+func (c *controller) SetKd(v float64)               { c.Kd = v }
+func (c *controller) SetSetPoint(v float64)         { c.SetPoint = v }
+func (c *controller) SetSampleTime(v time.Duration) { c.SampleTime = v }
+func (c *controller) SetWindupGuard(v float64)      { c.WindupGuard = v }
+func (c *controller) SetOutput(v float64)           { c.Output = v }
--- a/test/test.go
+++ b/test/test.go
@ -0,0 +1,50 @@
+package main
+
+import (
+	"fmt"
+	"time"
+
+	"amuz.es/src/infra/cpu_ctrl/pid"
+)
+
+// 실제 CPU온도환경 모델링
+func test_pid(P float64, I float64, D float64, L int) {
+	pid := pid.New(P, I, D)
+	pid.SetSetPoint(40.0)
+	pid.SetSampleTime(time.Second)
+	pid.SetWindupGuard(96.0)
+
+	END := L
+
+	feedback := 60.0
+
+	minTemp := 28.0
+
+	for i := 0; i < END; i++ {
+		output := pid.Update((feedback * 1000.0) / 1000.0)
+		adj := output
+		if output > 0 {
+			adj = 0.0
+		} else if output < -96.0 {
+			adj = -96.0
+		}
+
+		adj_noob := int(-adj + 4)
+
+		adj /= 10.0
+		adj += 1.1
+		fmt.Printf("feedback: %0.17f output: %0.17f adj: %0.17f noob: 0x%x\n", feedback, output, adj, adj_noob)
+
+		feedback += adj
+
+		if feedback < minTemp {
+			feedback = minTemp
+		}
+
+		time.Sleep(time.Second)
+
+	}
+}
+func main() {
+	test_pid(1.5, 0.4, 2.0, 500)
+}