240 lines
6.6 KiB
Go
240 lines
6.6 KiB
Go
package nvidia_smi
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import (
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"encoding/xml"
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"fmt"
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"os"
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"os/exec"
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"strconv"
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"strings"
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"time"
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"github.com/influxdata/telegraf"
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"github.com/influxdata/telegraf/internal"
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"github.com/influxdata/telegraf/plugins/inputs"
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)
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const measurement = "nvidia_smi"
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// NvidiaSMI holds the methods for this plugin
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type NvidiaSMI struct {
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BinPath string
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Timeout internal.Duration
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}
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// Description returns the description of the NvidiaSMI plugin
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func (smi *NvidiaSMI) Description() string {
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return "Pulls statistics from nvidia GPUs attached to the host"
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}
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// SampleConfig returns the sample configuration for the NvidiaSMI plugin
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func (smi *NvidiaSMI) SampleConfig() string {
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return `
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## Optional: path to nvidia-smi binary, defaults to $PATH via exec.LookPath
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# bin_path = "/usr/bin/nvidia-smi"
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## Optional: timeout for GPU polling
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# timeout = "5s"
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`
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}
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// Gather implements the telegraf interface
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func (smi *NvidiaSMI) Gather(acc telegraf.Accumulator) error {
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if _, err := os.Stat(smi.BinPath); os.IsNotExist(err) {
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return fmt.Errorf("nvidia-smi binary not at path %s, cannot gather GPU data", smi.BinPath)
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}
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data, err := smi.pollSMI()
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if err != nil {
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return err
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}
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err = gatherNvidiaSMI(data, acc)
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if err != nil {
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return err
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}
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return nil
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}
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func init() {
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inputs.Add("nvidia_smi", func() telegraf.Input {
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return &NvidiaSMI{
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BinPath: "/usr/bin/nvidia-smi",
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Timeout: internal.Duration{Duration: 5 * time.Second},
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}
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})
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}
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func (smi *NvidiaSMI) pollSMI() ([]byte, error) {
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// Construct and execute metrics query
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ret, err := internal.CombinedOutputTimeout(exec.Command(smi.BinPath, "-q", "-x"), smi.Timeout.Duration)
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if err != nil {
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return nil, err
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}
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return ret, nil
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}
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func gatherNvidiaSMI(ret []byte, acc telegraf.Accumulator) error {
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smi := &SMI{}
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err := xml.Unmarshal(ret, smi)
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if err != nil {
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return err
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}
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metrics := smi.genTagsFields()
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for _, metric := range metrics {
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acc.AddFields(measurement, metric.fields, metric.tags)
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}
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return nil
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}
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type metric struct {
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tags map[string]string
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fields map[string]interface{}
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}
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func (s *SMI) genTagsFields() []metric {
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metrics := []metric{}
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for i, gpu := range s.GPU {
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tags := map[string]string{
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"index": strconv.Itoa(i),
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}
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fields := map[string]interface{}{}
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setTagIfUsed(tags, "pstate", gpu.PState)
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setTagIfUsed(tags, "name", gpu.ProdName)
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setTagIfUsed(tags, "uuid", gpu.UUID)
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setTagIfUsed(tags, "compute_mode", gpu.ComputeMode)
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setIfUsed("int", fields, "fan_speed", gpu.FanSpeed)
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setIfUsed("int", fields, "memory_total", gpu.Memory.Total)
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setIfUsed("int", fields, "memory_used", gpu.Memory.Used)
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setIfUsed("int", fields, "memory_free", gpu.Memory.Free)
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setIfUsed("int", fields, "temperature_gpu", gpu.Temp.GPUTemp)
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setIfUsed("int", fields, "utilization_gpu", gpu.Utilization.GPU)
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setIfUsed("int", fields, "utilization_memory", gpu.Utilization.Memory)
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setIfUsed("int", fields, "pcie_link_gen_current", gpu.PCI.LinkInfo.PCIEGen.CurrentLinkGen)
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setIfUsed("int", fields, "pcie_link_width_current", gpu.PCI.LinkInfo.LinkWidth.CurrentLinkWidth)
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setIfUsed("int", fields, "encoder_stats_session_count", gpu.Encoder.SessionCount)
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setIfUsed("int", fields, "encoder_stats_average_fps", gpu.Encoder.AverageFPS)
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setIfUsed("int", fields, "encoder_stats_average_latency", gpu.Encoder.AverageLatency)
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setIfUsed("int", fields, "clocks_current_graphics", gpu.Clocks.Graphics)
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setIfUsed("int", fields, "clocks_current_sm", gpu.Clocks.SM)
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setIfUsed("int", fields, "clocks_current_memory", gpu.Clocks.Memory)
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setIfUsed("int", fields, "clocks_current_video", gpu.Clocks.Video)
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setIfUsed("float", fields, "power_draw", gpu.Power.PowerDraw)
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metrics = append(metrics, metric{tags, fields})
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}
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return metrics
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}
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func setTagIfUsed(m map[string]string, k, v string) {
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if v != "" {
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m[k] = v
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}
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}
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func setIfUsed(t string, m map[string]interface{}, k, v string) {
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vals := strings.Fields(v)
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if len(vals) < 1 {
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return
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}
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val := vals[0]
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if k == "pcie_link_width_current" {
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val = strings.TrimSuffix(vals[0], "x")
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}
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switch t {
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case "float":
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if val != "" {
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f, err := strconv.ParseFloat(val, 64)
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if err == nil {
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m[k] = f
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}
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}
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case "int":
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if val != "" {
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i, err := strconv.Atoi(val)
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if err == nil {
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m[k] = i
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}
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}
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}
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}
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// SMI defines the structure for the output of _nvidia-smi -q -x_.
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type SMI struct {
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GPU GPU `xml:"gpu"`
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}
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// GPU defines the structure of the GPU portion of the smi output.
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type GPU []struct {
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FanSpeed string `xml:"fan_speed"` // int
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Memory MemoryStats `xml:"fb_memory_usage"`
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PState string `xml:"performance_state"`
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Temp TempStats `xml:"temperature"`
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ProdName string `xml:"product_name"`
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UUID string `xml:"uuid"`
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ComputeMode string `xml:"compute_mode"`
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Utilization UtilizationStats `xml:"utilization"`
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Power PowerReadings `xml:"power_readings"`
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PCI PCI `xml:"pci"`
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Encoder EncoderStats `xml:"encoder_stats"`
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Clocks ClockStats `xml:"clocks"`
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}
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// MemoryStats defines the structure of the memory portions in the smi output.
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type MemoryStats struct {
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Total string `xml:"total"` // int
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Used string `xml:"used"` // int
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Free string `xml:"free"` // int
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}
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// TempStats defines the structure of the temperature portion of the smi output.
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type TempStats struct {
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GPUTemp string `xml:"gpu_temp"` // int
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}
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// UtilizationStats defines the structure of the utilization portion of the smi output.
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type UtilizationStats struct {
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GPU string `xml:"gpu_util"` // int
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Memory string `xml:"memory_util"` // int
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}
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// PowerReadings defines the structure of the power_readings portion of the smi output.
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type PowerReadings struct {
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PowerDraw string `xml:"power_draw"` // float
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}
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// PCI defines the structure of the pci portion of the smi output.
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type PCI struct {
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LinkInfo struct {
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PCIEGen struct {
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CurrentLinkGen string `xml:"current_link_gen"` // int
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} `xml:"pcie_gen"`
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LinkWidth struct {
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CurrentLinkWidth string `xml:"current_link_width"` // int
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} `xml:"link_widths"`
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} `xml:"pci_gpu_link_info"`
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}
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// EncoderStats defines the structure of the encoder_stats portion of the smi output.
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type EncoderStats struct {
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SessionCount string `xml:"session_count"` // int
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AverageFPS string `xml:"average_fps"` // int
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AverageLatency string `xml:"average_latency"` // int
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}
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// ClockStats defines the structure of the clocks portion of the smi output.
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type ClockStats struct {
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Graphics string `xml:"graphics_clock"` // int
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SM string `xml:"sm_clock"` // int
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Memory string `xml:"mem_clock"` // int
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Video string `xml:"video_clock"` // int
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}
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