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Results 51 - 60 of 170 for cpu (0.2 sec)

  1. tensorflow/c/eager/c_api_experimental_test.cc

            ctx, name, TF_FLOAT, dims, 2, data, size, &Deleter, copy, status);
        CHECK_EQ(TF_OK, TF_GetCode(status)) << TF_Message(status);
        TFE_TensorHandle* on_host =
            TFE_TensorHandleCopyToDevice(copy_aliased, ctx, "CPU:0", status);
        CHECK_EQ(TF_OK, TF_GetCode(status)) << TF_Message(status);
        TF_Tensor* resolved = TFE_TensorHandleResolve(on_host, status);
        CHECK_EQ(TF_OK, TF_GetCode(status)) << TF_Message(status);
    Registered: Tue Nov 05 12:39:12 UTC 2024
    - Last Modified: Thu Aug 03 03:14:26 UTC 2023
    - 31.5K bytes
    - Viewed (0)
  2. tensorflow/c/eager/dlpack.cc

      std::string device_type = parsed_name.type;
      int device_id = 0;
      if (parsed_name.has_id) {
        device_id = parsed_name.id;
      }
    
      ctx.device_id = device_id;
      if (device_type == "CPU") {
        ctx.device_type = DLDeviceType::kDLCPU;
      } else if (device_type == "GPU") {
    #if TENSORFLOW_USE_ROCM
        ctx.device_type = DLDeviceType::kDLROCM;
    #else
        ctx.device_type = DLDeviceType::kDLCUDA;
    #endif
    Registered: Tue Nov 05 12:39:12 UTC 2024
    - Last Modified: Sat Oct 12 05:11:17 UTC 2024
    - 12.9K bytes
    - Viewed (0)
  3. cmd/callhome.go

    			// sleep for some time and try again.
    			duration := time.Duration(r.Float64() * float64(globalCallhomeConfig.FrequencyDur()))
    			if duration < time.Second {
    				// Make sure to sleep at least a second to avoid high CPU ticks.
    				duration = time.Second
    			}
    			time.Sleep(duration)
    		}
    	}()
    }
    
    func runCallhome(ctx context.Context, objAPI ObjectLayer) bool {
    	// Make sure only 1 callhome is running on the cluster.
    Registered: Sun Nov 03 19:28:11 UTC 2024
    - Last Modified: Fri May 17 16:53:34 UTC 2024
    - 5.3K bytes
    - Viewed (0)
  4. guava/src/com/google/common/collect/CompactLinkedHashMap.java

     * java.util.LinkedHashMap}. Generally speaking, this class reduces object allocation and memory
     * consumption at the price of moderately increased constant factors of CPU. Only use this class
     * when there is a specific reason to prioritize memory over CPU.
     *
     * @author Louis Wasserman
     */
    @J2ktIncompatible // no support for access-order mode in LinkedHashMap delegate
    @GwtIncompatible // not worth using in GWT for now
    Registered: Fri Nov 01 12:43:10 UTC 2024
    - Last Modified: Mon Apr 01 16:15:01 UTC 2024
    - 10.2K bytes
    - Viewed (0)
  5. schema/naming.go

    	}
    	return formattedName
    }
    
    var (
    	// https://github.com/golang/lint/blob/master/lint.go#L770
    	commonInitialisms         = []string{"API", "ASCII", "CPU", "CSS", "DNS", "EOF", "GUID", "HTML", "HTTP", "HTTPS", "ID", "IP", "JSON", "LHS", "QPS", "RAM", "RHS", "RPC", "SLA", "SMTP", "SSH", "TLS", "TTL", "UID", "UI", "UUID", "URI", "URL", "UTF8", "VM", "XML", "XSRF", "XSS"}
    Registered: Sun Nov 03 09:35:10 UTC 2024
    - Last Modified: Wed Jun 12 03:46:59 UTC 2024
    - 5.3K bytes
    - Viewed (0)
  6. manifests/addons/dashboards/pilot-dashboard.gen.json

             "type": "timeseries"
          },
          {
             "datasource": {
                "type": "datasource",
                "uid": "-- Mixed --"
             },
             "description": "CPU usage of each running instance",
             "fieldConfig": {
                "defaults": {
                   "custom": {
                      "fillOpacity": 10,
                      "gradientMode": "hue",
    Registered: Wed Nov 06 22:53:10 UTC 2024
    - Last Modified: Fri Jul 26 23:54:32 UTC 2024
    - 24.7K bytes
    - Viewed (0)
  7. docs/zh/docs/deployment/docker.md

    ///
    
    ### 官方 Docker 镜像上的进程数
    
    此镜像上的**进程数**是根据可用的 CPU **核心**自动计算的。
    
    这意味着它将尝试尽可能多地**榨取**CPU 的**性能**。
    
    你还可以使用 **环境变量** 等配置来调整它。
    
    但这也意味着,由于进程数量取决于容器运行的 CPU,因此**消耗的内存量**也将取决于该数量。
    
    因此,如果你的应用程序消耗大量内存(例如机器学习模型),并且你的服务器有很多 CPU 核心**但内存很少**,那么你的容器最终可能会尝试使用比实际情况更多的内存 可用,并且性能会下降很多(甚至崩溃)。 🚨
    
    ### 创建一个`Dockerfile`
    
    以下是如何根据此镜像创建`Dockerfile`:
    
    
    Registered: Sun Nov 03 07:19:11 UTC 2024
    - Last Modified: Mon Aug 12 21:47:53 UTC 2024
    - 31.2K bytes
    - Viewed (0)
  8. docs/de/docs/deployment/server-workers.md

    Wenn Sie Anwendungen bereitstellen, möchten Sie wahrscheinlich eine gewisse **Replikation von Prozessen**, um **mehrere CPU-Kerne** zu nutzen und mehr Requests bearbeiten zu können.
    
    Wie Sie im vorherigen Kapitel über [Deployment-Konzepte](concepts.md){.internal-link target=_blank} gesehen haben, gibt es mehrere Strategien, die Sie anwenden können.
    
    Registered: Sun Nov 03 07:19:11 UTC 2024
    - Last Modified: Tue Aug 06 04:48:30 UTC 2024
    - 10.1K bytes
    - Viewed (0)
  9. docs/de/docs/async.md

    ---
    
    Typische Beispiele für CPU-lastige Vorgänge sind Dinge, die komplexe mathematische Berechnungen erfordern.
    
    Zum Beispiel:
    
    * **Audio-** oder **Bildbearbeitung**.
    Registered: Sun Nov 03 07:19:11 UTC 2024
    - Last Modified: Tue Aug 06 04:48:30 UTC 2024
    - 26.6K bytes
    - Viewed (0)
  10. docs/es/docs/async.md

    ---
    
    Ejemplos típicos de operaciones dependientes de CPU son cosas que requieren un procesamiento matemático complejo.
    
    Por ejemplo:
    
    * **Audio** o **procesamiento de imágenes**.
    Registered: Sun Nov 03 07:19:11 UTC 2024
    - Last Modified: Mon Aug 19 18:15:21 UTC 2024
    - 24.9K bytes
    - Viewed (0)
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