![]() Benchmark scores from these systems will give you good reference points. Benchmark old PCs that are ready to be replaced and new systems that were purchased recently. Our How to Benchmark guide will help you get accurate results. You can start by testing some of your existing systems. But how should you go about choosing an appropriate score? Setting a minimum benchmark score in your RFP helps you judge the relative performance and value of different systems. PCMark 10 sub-scores help you focus on performance for specific activities such as office productivity or working with digital content. The tests in PCMark 10 include everyday essentials like web browsing and video conferencing, common office productivity tasks like working with documents and spreadsheets, and extend to digital content activities such as photo and video editing.Ī PCMark 10 score is a measure of the overall performance of a system for modern office work. PCMark 10 measures PC performance with a comprehensive set of tests that cover the wide variety of tasks performed in the modern workplace. For companies buying PCs, laptops, or notebooks for general office use, we recommend our PCMark 10 benchmark. You should choose a benchmark that best matches the needs of your end users. UL Solutions works with leading technology companies to create industry-standard benchmark tests that are widely used by businesses, governments, press, and consumers.Įach of our benchmark tests is designed for a specific scenario-such as home or office use-and a certain class of device-such as a PC, laptop, or smartphone. Comparing benchmark scores is far easier than comparing complex technical specifications. A higher score indicates better performance. A computer benchmarking program works by running a series of well-defined tests on the PC to measure its performance.īenchmarks developed by UL Solutions produce a score that you can use to compare PC systems. What is a benchmark?Ī benchmark is simply a test that is used to compare similar products. But even experts find it hard to compare the performance of different PC systems from their specifications alone.Ī better way to specify and compare the performance of computer systems is to use benchmarks. Tenders for desktop PCs and laptop computers often use a reference system to specify the minimum required performance. Present PrIM, a benchmark suite of 16 workloads from different applicationĭomains (e.g.One of the challenges facing IT managers and procurement specialists is how to specify PC performance in a practical and accessible way that generates competitive offers from suppliers. System using microbenchmarks to assess various architecture limits such asĬompute throughput and memory bandwidth, yielding new insights. We make two key contributions.įirst, we conduct an experimental characterization of the UPMEM-based PIM Publicly-available real-world PIM architecture. This paper provides the first comprehensive analysis of the first Manufactured the first publicly-available real-world PIM architecture. In contrast, the UPMEM company has designed and Past worksĮvaluate these architectures in simulation or, at best, with simplified The emergence of new 3D-stacked memory technologies that integrate memory withĪ logic layer where processing elements can be easily placed. Recent research explores different forms of PIM architectures, motivated by Requires a paradigm where the memory system assumes an active role in computingīy integrating processing capabilities. ![]() Fundamentally addressing this data movement bottleneck ![]() ![]() Low data reuse in memory-bound workloads is insufficient to amortize the cost Happens through a narrow bus with high latency and limited bandwidth, and the ![]() A major reason is that this communication Movement between main memory and CPU cores imposes a significant overhead in Processing, are fundamentally memory-bound. Download a PDF of the paper titled Benchmarking a New Paradigm: An Experimental Analysis of a Real Processing-in-Memory Architecture, by Juan G\'omez-Luna and 5 other authors Download PDF Abstract: Many modern workloads, such as neural networks, databases, and graph ![]()
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