You can also set any environment variables the accelerator would normally recognize. See unity-accelerator --all-help and look for options that indicate Default: $SOME_VARIABLE. There are two that the container will set if you do not:
See the Command Line Tools section for information on how to find out what your dashboard URL is; though if you know the ip and port of the accelerator you can just use :port/dashboard and the accelerator will handle any needed redirects. For full metrics monitoring see Accessing Accelerator metrics directly and the full configuration of the Accelerator is available through its unity-accelerator.cfg file.
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There are additional, advanced configuration options you can research by running unity-accelerator config help | less and searching for Forward. You can specify the forwarding concurrency, queue size, error handling, etc.
Also note that you may wish to alter the configuration values for the MaintenanceStart and MaintenanceDuration of each mirrored accelerator so that they do not all shutdown for maintenance at the same time.
For Accelerator installations on Linux systems, all Linux executables have signature files that you can verify to ensure that no malicious entities have tampered with your downloaded Accelerator version. You can verify the signature files with a trusted version of GnuPG. The key below signs the current release. The public key block with the key is available at -accelerator.cloud.unity3d.com/.
I noticed that my Dynamo 2.12 for Revit 2022 does not work properly when microdesk accelerator is installed. The nodes are not visible and I can only see wires. after uninstalling Microdesk, dynamo works again.
This page shows you how to use NVIDIA graphics processing unit (GPU) hardwareaccelerators in your Google Kubernetes Engine (GKE) Standard clusters'nodes. For more information about GPUs in GKE, refer toAbout GPUs in GKE.
We recommend that you use automatic driver installation when possible byspecifying the gpu-driver-version option in the --accelerator flag when youcreate your Standard cluster. If you used the installation DaemonSetto manually install GPU drivers on or before January 25, 2023, you mightneed to re-apply the DaemonSet to get a version that ignores nodes that useautomatic driver installation.
If you want to use multiple GPU accelerator types per cluster, you must createmultiple node pools, each with their own accelerator type.GKE attaches a unique node selector to GPUnodes to help place GPU workloads on nodes with specific GPU types:
This accelerator also introduces the Customer profile sync use case (and four extension use cases), which enables retail developers to create a customer 360 view by unlocking customer data from disparate systems.
The Clean Energy Cybersecurity Accelerator identifies the most urgent security gaps in the modern electrical grid and expedites disruptive solutions to market. The accelerator is sponsored by the U.S. Department of Energy's Office of Cybersecurity, Energy Security, and Emergency Response in collaboration with the Office of Energy Efficiency and Renewable Energy.
Next-level security requires new ideas and wide-scale collaboration. The cyber accelerator achieves both by uniting public and private expertise on high-priority threats and by validating solutions that provide high-performance mitigation and response.
In accordance with the Nuclear Safety and Control Act (NSCA) and regulations made under it, a person wanting to construct, operate or decommission a non-radiotherapy accelerator facility, defined as a Class II Nuclear Facility, requires a licence issued by the Canadian Nuclear Safety Commission (the Commission).
The previous version of this document has been revised to include guidance for applying for a licence for industrial and research accelerators. The title of the guidance document has been changed to reflect these revisions. The previous title of this document was RD/GD-289, Licence Application Guide, Class II Isotope Production Accelerators.
This licence application guide provides direction for the submission of the information required for a licence to construct, operate, or decommission facilities comprising a particle accelerator which is not use for delivering medical radiotherapy treatments and, where applicable, the associated processing facilities. Those facilities are defined as Class II Nuclear Facilities and hereafter will be referred to as non-radiotherapy accelerator facilities. Examples include accelerators used for isotope production, industrial radiography or for materials research in universities.
Note that some sections only apply to isotope production and some research accelerators facilities that are involved in handling nuclear substances produced by the accelerator. These sections would not normally apply to industrial accelerators.
Before licensing Class II accelerators, which are defined as Class II prescribed equipment, their design must be certified by the Commission unless they are used in accordance with a licence that authorizes their use for development purposes or scientific research. For more information about the certification of non-radiotherapy accelerators, please refer to the CNSC Regulatory Guide RD/GD-254, Certification of Radiation Devices or Class II Prescribed Equipment.
The Radiation Safety Officer (RSO) is the person responsible for the management and control of the licensed activities and is the person CNSC staff will contact about radiation safety and compliance matters. The RSO must be familiar with the accelerator facility operations described in this application and the use of nuclear substances encompassed by the licence.
Provide a list of all anticipated job categories of workers who will be working with the accelerator or nuclear substances encompassed by the licence. Include a brief description of the proposed roles, responsibilities and duties for each category, as well as the qualifications and experience workers must have to perform these duties. Submit an overview of any proposed additional in-house training program for each category of worker.
Workers should be individually authorized to work with nuclear substance and accelerators following successful completion of an appropriate training program. Any significant change to procedures should require re-training in the use of these procedures. Periodic refresher training is also advisable.
Append a list of all gamma radiation survey meters, neutron survey meters and contamination monitors which are to be used in conjunction with the accelerator and nuclear substances. This list should include the following information:
Calibrated radiation survey meters must be available at all times. The suitability of any survey meter should be verified prior to use, as some photon survey meters respond inaccurately to the pulsed, high energy radiation fields produced by typical electron linear accelerators. Instruments with analog displays (e.g., magnetic deflection meters) are not suitable for use in the strong magnetic fields in the immediate vicinity of cyclotrons.
Access to accelerators and nuclear substances must be controlled wherever they are used or stored. In addition, access to radioactive shipments and to sources destined for disposal must also be controlled. Nuclear substances must be stored in a locked area, room or enclosure when not in use or when not under the direct supervision of an authorized worker. Security measures should address prevention of unauthorized access to, or operation of, equipment outside of normal working hours.
Append or refer to the methods, procedures and equipment that will be used during and following an accident resulting from operation of the accelerator or associated processing activities (if applicable). Some examples of emergencies for which procedures should be developed include:
The licensee will be required to apply for a decommissioning licence for the facility once the accelerator reaches the end of its operating lifespan (see section K of this guide). A detailed final decommissioning plan will be required at that time.
For isotope production accelerators, include each of the parameters given in the summary table included with the application form. For each reaction and end product listed, also provide the maximum annual workload allowed for in the facility design.
For industrial and research accelerators, include the workload for each beam type, accelerating potential, beam current and target material. Also provide the maximum annual workload allowed for in the facility design.
Important: The sections of this guide pertaining to processing of isotopes are only intended for use in situations where the accelerator and the associated processing facilities are integrated into a single radiopharmaceutical production site, and the total quantity of radioactive material to be processed is less than 1015 Bq/year. If the radioisotopes produced by the accelerator are to be shipped to and processed at a site independent from the accelerator, then processing should be licensed separately as per the Nuclear Substances and Radiation Devices Regulations. If the facility is expected to process more than 1015 Bq of radioisotopes per year, it qualifies as a Class IB nuclear facility under the NSCA and will be subject to the Class I Nuclear Facility Regulations.
Exclusion: An exclusion area must have access controls interlocked to the accelerator so that no one can gain access to the area when the accelerator is in operation. The interlock systems required are described in section H.
Provide a description or analysis of the anticipated maximum annual workload for the accelerator facility. The workload must represent the anticipated amount of use of the accelerator over a defined period (usually one year), in a manner that can be related directly to the resulting radiation doses incurred by persons occupying adjacent areas over that period. In general, this requires an indication of the total period of time the accelerator beam will be on, combined with some measurement or estimate of the radiation dose rate(s) at defined reference location(s) under typical operating conditions. 0852c4b9a8
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