Hardware Architecture definition

Hardware Architecture or “Hardware Platform” means a family of systems which is able to execute the same executable code or programs.

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Hardware Architecture or “ Hardware Platform” means a family of systems which is able to execute the same executable code or programs. " High Performance Computing System (HPC) System" is defined as a cluster of Physical Servers which has at least 64 Sockets in total. A HPC System must split tasks into subtasks which are distributed to one or more HPC Compute Nodes for computation.

Hardware Architecture or “Hardware Platform” means a family of systems which is able to execute the same executable code or programs. "High Performance Computing Cluster (HPC Cluster) is defined as a single entity or Physical System to work on specific tasks by performing compute-intensive or I/O intensive operations on sets of data that are networked and managed to perform compute-intensive workloads or high performance data analysis workloads. The HPC Cluster must split tasks into subtasks which are distributed to one or more HPC Compute Nodes for computation. The HPC Cluster consists of a combination of multiple HPC Compute Nodes and at least one HPC Head Node.

Examples of Hardware Architecture in a sentence

System Overview - Overview of the Hardware Architecture, Run-time Software Architecture, and Compilation.
EAST-ADL XML file can be generated natively by the tools starting from any Hardware Architecture model.
The non-functional hardware-software interface aspects shall be defined using require- ments on the Hardware Architecture elements.
This guide covers also other parts of EAST-ADL than modeling Hardware Architecture, such as functional architectures, requirements models, feature models, dependability, environment models etc.
This document describes the implementation using Hardware Architecture of EAST-ADL (version M2.1.12 [1]) as an example.
Hardware Architecture The hardware architecture describes the type of hardware modules used for the two use cases.
SLE POS Client operating systems may only be built for the x86 Hardware Architecture.
The ENGINEER will organize and facilitate a Baseline Assessment and Gap Analysis workshop to review the DRAFT Baseline Assessment and Gap Analysis Document, including the SCADA Software and Hardware Architecture Diagram.
ESPOS entitles customers of SLES for SAP Applications (x86-64, ppc64le) to continue receiving Subscription Offering benefits under the same conditions as LTSS (i.e. per Code Stream and Hardware Architecture dependent) according SUSE product lifecycle.
LTSS for x86 & x86-64 has the following Subscription Offering options:  up to 100 Instances  up to 500 Instances  unlimited Instances This LTSS Subscription Offering is offered strictly per Code Stream and is Hardware Architecture specific.