独家
选择高性能全闪存存储的关键方法
品牌连接计划。
-
沃达丰Idea 20%的销售团队员工辞职
因此,沃达丰Idea目前正在寻找替代人选。该电信公司在其领英公司页面上列出了1905个职位空缺,如AGM -预付费营销专员,AGM -预付费营销,AGM -营销分析等。
-
-
-
随着全闪的普及,强大存储性能特性变得越来越强烈。例如,在2008年,10万IOPS被认为是很高的,但现在许多供应商声称可以提供1000万IOPS。其他特性,如存储系统延迟从毫秒缩短到微秒,意味着全闪存市场比以往任何时候都更具竞争力。存储性能提升中的误导点
尽管该行业取得了许多进步,但许多供应商使用虚假广告来推广他们的全闪存产品。让我们看看存储性能提升中的几个误导点。
要点1:使用100%缓存命中率的性能
在提升存储性能时,许多供应商经常在备注中写“100%缓存命中”。这意味着所有数据都存储在内存中,而不是永久存储。判断IT架构性能的标准是,是否将访问频率最高的数据存储在响应速度最快的位置。如图所示,L0 ~ L2层的热数据由操作系统的cpu调度,L3 ~ L4层的热数据由存储系统调度。
也就是说,在客户环境中几乎不可能有100%的捕获命中率。这是因为全闪存不仅适用于不同的行业,而且适用于一个行业内不同的商业模式。这种说法应该持保留态度,客户应该根据产品彻底检查他们的需求。
主流ssd盘在数据读取方面具有较高的性能,但由于每次写入数据时,都要先将NAND盘上的数据擦除,然后再写入新的数据,因此写入性能较差。这个过程被称为“Program/Erase”,在MLC/TLC NAND闪存中需要1ms到2ms,导致数据读写的性能差异巨大。
ssd通常会预留大量的超额配置空间,当数据写入ssd时,并不是每次都需要“擦除/编程”过程。一般情况下,SSD在读写和只读场景下性能下降。因此,实际的性能值必须反映客户的业务模型,而不是仅仅使用100%读性能的值。
要点3:性能稳定性
许多供应商只使用特定的模型和在一定条件下提升参考价值
压力,而不是展示他们产品的稳定性。存储性能的稳定性至关重要,特别是在业务压力变化、业务环境复杂的情况下。客户在选择存储SLA时,将稳定性作为最重要的指标之一,因此,提供有限结果的供应商是在误导客户。
SPC,最常用的第三方存储性能评估平台
的测试标准(特别是随机IOPS有效性的SPC-1测试)存储性能委员会SPC (SPC)是业界常用的存储产品性能衡量标准。EMC、NetApp、Dell、HPE、HDS等主流厂商华为、IBM和富士通参与SPC测试,并利用测试结果推广其产品的性能和成本效益特点。这使得SPC-1成为衡量各种品牌产品性能的知名指标。
SPC-1的试验规范严格公正。它的测试程序可以防止故意的数据值操纵,其测试模型类似于主流事务工作负载,这意味着SPC-1是反映现实应用程序环境的可靠参考。
服务类型:对于生产服务,SPC提供SPC-1基准测试指南。对于数据分析服务,SPC提供SPC-2基准测试指南。
混合服务工作负载:在SPC-1测试中,多业务负载用于并发性测试,验证混合业务场景下存储系统的响应时间。主要指标包括不同的数据类型(文本、二进制、稀疏)、不同的块大小(8kb ~ 128kb)、不同的读写比例(顺序读写、随机读写)。
不同的服务压力:SPC通过增加和减少动态工作负载行为来测试不同业务压力下的存储性能。SPC从峰值开始测试,逐渐降低业务压力,然后逐渐增加业务压力。然后模拟两个服务峰值,如图左图所示。
1.不同压力场景下的性能值和时延:
OceanStor 18800F V5最大IOPS可达600万次,时延小于1ms。
2.响应时间稳定性:
据统计,99.984%的I/O响应都在1ms以内。
华为OceanStor F V5,突破性的高性能全闪存存储
OceanStor F V5全闪存存储采用OceanStor V3系列存储系统,具有丰富的企业级存储特性和高可用性等级,性能和集成能力都得到了进一步提升。华为的最新产品为企业的关键服务提供了完整的数据管理解决方案,并利用内置优化来实现全闪存、全云和全智能战略。中端和高端产品扩展了华为的闪存产品组合,使其能够满足更广泛的客户需求。
华为致力于为所有存储客户提供不断提升的性能和可靠性,满足客户不断升级的需求
来自各种规模组织的应用程序环境的需求。自2010年以来,华为存储一直在打破SPC-1™性能测试的记录。OceanStor 18800F V5是最新的产品,在行业测试的审查下,展示了智能闪存的巨大优势。OceanStor F V5采用自主研发的创新flash端到端架构(包括CPU多核优化),利用自适应缓存和自主研发的SSD算法,实现系统软硬件深度融合。全闪存所提供的卓越性能,为用户提供卓越的用户体验,帮助核心业务轻松迎接全闪存时代。
本存储系统采用自主研发的高性能新一代SSD控制器芯片,配合新一代高效的专利算法,为用户提供可靠、高性能的SSD硬盘。OceanStor F V5采用自主研发的全闪存专用控制器、业界领先的系统架构和负载均衡的多控制器处理架构,具备强大的全闪存处理能力。完全满足全闪存系统的算法处理要求。此外,先进的处理器资源分配算法、LDPC纠错算法和raid2.0 +技术,实现了ssd的长寿和快速I/O响应,释放了全闪存的潜力。
![\"Key](\"https:\/\/st.etb2bimg.com\/Themes\/Release\/images\/responsive\/ettelecom-default.jpg\")
With the popularity of all-flash, strong storage<\/a> performance features are becoming more and more intense. For example, 100,000 IOPS were considered very high in 2008, but now many vendors claim to offer 10 million IOPS. Other features such as storage systems latency being shortened from milliseconds to microseconds mean all-flash market is more competitive today than ever.Misleading Points in Storage Performance Promotion<\/strong>
Despite the many advancements in the industry, many vendors use false advertisements to promote their all-flash products. Let's look at several misleading points in storage performance promotion.
Point 1: Use performance with a 100% cache hit ratio<\/strong>
When promoting storage performance, many vendors often write \"100% cache hit\" in remarks. This means that all data is stored in memory, instead of being stored permanently. The criteria to decide high-performance IT architecture is to check whether it stores the most frequently accessed data to the place with the fastest response.The preceding figure shows that hot data at L0 to L2 layers is scheduled by the operating system's CPUs, while data at L3 to L4 layers is scheduled by the storage system.
This is to say, it is almost impossible to have a 100% catch hit ratio in customers' environment. This is because all-flash storage applies to not only different industries but also to varying business models within an industry. This claim should be taken with a grain of salt, and customers should thoroughly check their needs against the product.
<\/div><\/div>Point 2: 100% read performance<\/strong>
Mainstream SSDs offer high performance in data reads, but their write performance is lackluster because each time data is written, SSDs erase data from a NAND before writing new data. This process is called \"Program\/Erase\", which takes 1 ms to 2 ms in MLC\/TLC NAND flash, leading to huge performance differences in data reads and writes.
SSDs often reserve a large amount of over-provisioning space and the \"Erase\/Program\" process is not required every time when data is written onto SSDs. Generally speaking, SSD performance deteriorates in read and write, and read-only scenarios. Therefore, real-life performance value must reflect the customers' business models, instead of just using the value of 100% read performance.
Point 3: Performance stability<\/strong>
Many vendors only promote reference value using a specific model and under certainpressure, rather than showing their products' stability.
The stability of storage performance is critical, especially when service pressure changes and in complex service environment. When choosing storage SLA, customers regard stability as one of the most important indicators, so vendors who produce limited results are misleading their customers.
Mainstream SSDs offer high performance in data reads, but their write performance is lackluster because each time data is written, SSDs erase data from a NAND before writing new data. This process is called \"Program\/Erase\", which takes 1 ms to 2 ms in MLC\/TLC NAND flash, leading to huge performance differences in data reads and writes.
SSDs often reserve a large amount of over-provisioning space and the \"Erase\/Program\" process is not required every time when data is written onto SSDs. Generally speaking, SSD performance deteriorates in read and write, and read-only scenarios. Therefore, real-life performance value must reflect the customers' business models, instead of just using the value of 100% read performance.
Point 3: Performance stability<\/strong>
Many vendors only promote reference value using a specific model and under certain
pressure, rather than showing their products' stability.The stability of storage performance is critical, especially when service pressure changes and in complex service environment. When choosing storage SLA, customers regard stability as one of the most important indicators, so vendors who produce limited results are misleading their customers.
<\/div><\/div>Stability indicates that response time of 99% services must remain stable under a certain value. If services fluctuate, user experience will suffer. However, most customers have not realized this issue.
SPC, the Most Commonly Used Third-Party Storage Performance Evaluation Platform<\/strong>
Test standards (especially SPC-1 test for random IOPS effectiveness) proposed by the Storage Performance Council<\/a> (SPC) are a common reference for measuring storage products' performance in the industry. Mainstream vendors such as EMC, NetApp, Dell, HPE, HDS, Huawei<\/a>, IBM, and Fujitsu<\/a> have participated in the SPC tests and used test results to promote their products' performance and cost effective features. This makes SPC-1 a well-known indicator for measuring performance of products from various brands.
The test specifications of SPC-1 are strict and fair. Its test program prevents deliberate data value manipulation and its test models are similar to mainstream transaction workloads, meaning SPC-1 is a reliable reference to reflect real-life application environment.
Service type:<\/strong> For production services, SPC provides SPC-1 benchmark test guide. For data analysis services, SPC provides SPC-2 benchmark test guide.
Hybrid service workload: <\/strong> In SPC-1 test, multiple service workload is used for is used for concurrency testing to verify response times of storage systems in hybrid service scenarios. Main indicators include different data types (text, binary, and sparse), different block sizes (8 KB to 128 KB), and different read\/write ratios, such as sequential reads and writes or random reads and writes.
Varying service pressure: <\/strong>The SPC increases and decreases dynamic workload behaviors to test storage performance of varying service pressure. Specifically, SPC starts the test from the peak value before gradually decreasing and then increasing service pressure. Then it simulates two service peaks as shown in the figure on the left.
1. Performance value and latency in different pressure scenarios:<\/strong>
The OceanStor 18800F V5 has a maximum performance of 6 million IOPS and a latency of shorter than 1 ms.
<\/strong> 2. Response time stability: <\/strong>
Statistics show that 99.984% I\/O responses are within 1 ms.
Huawei OceanStor F V5, Groundbreaking High-Performance All-Flash Storage<\/strong>
Equipped with OceanStor V3 converged storage systems, rich store of enterprise-class features and high-availability ratings, Huawei's OceanStor F V5 all-flash storage takes performance and integration to the next level, with architectures specifically designed for all-flash layouts. Huawei\u2019s newest offerings provide organizations with a complete data management solution for their critical services and leverage built-in optimizations to enable all-flash, all-cloud, and all-intelligence strategies. The mid-range and high-end offerings extend Huawei's flash portfolio, adding to those able to meet even broader range of customer requirements.
Huawei is committed to provide continuously higher performance and reliability to all storage customers, satisfying everescalatingdemands from the application environments at organizations of all sizes. Huawei Storage has been breaking records in SPC-1\u2122 performance testing since 2010. The OceanStor 18800F V5 is the latest offering to break away from the pack, demonstrating immense advantages of the intelligence-infused flash storage, under scrutiny of industry testing.
The OceanStor F V5 uses innovative self-developed flash end-to-end architecture (including multi-core CPU optimization), and leverages adaptive cache and self-developed SSD algorithms to achieve in-depth integration of system software and hardware. Its superior performance provided by all-flash storage helps deliver superb user experience, helping core businesses easily embrace the era of all-flash storage.
This storage system uses next-generation self-developed SSD controller chips with high performance to work with new-generation efficient patent algorithms, providing users with reliable and high-performance SSD drives. Equipped with self-developed dedicated controllers optimized for all-flash storage, the industry-leading system architecture, and multi-controller processing architecture with load balancing, the OceanStor F V5 provides powerful all-flash processing capabilities. It fully meets algorithm-processing requirements of all-flash systems. Moreover, advanced processor resource allocation algorithms, LDPC error correction algorithms, and RAID 2.0+ technology achieve longevity of SSDs and fast I\/O response, unleashing the potential of all-flash storage.
<\/div><\/div>
SPC, the Most Commonly Used Third-Party Storage Performance Evaluation Platform<\/strong>
Test standards (especially SPC-1 test for random IOPS effectiveness) proposed by the Storage Performance Council<\/a> (SPC) are a common reference for measuring storage products' performance in the industry. Mainstream vendors such as EMC, NetApp, Dell, HPE, HDS, Huawei<\/a>, IBM, and Fujitsu<\/a> have participated in the SPC tests and used test results to promote their products' performance and cost effective features. This makes SPC-1 a well-known indicator for measuring performance of products from various brands.
The test specifications of SPC-1 are strict and fair. Its test program prevents deliberate data value manipulation and its test models are similar to mainstream transaction workloads, meaning SPC-1 is a reliable reference to reflect real-life application environment.
Service type:<\/strong> For production services, SPC provides SPC-1 benchmark test guide. For data analysis services, SPC provides SPC-2 benchmark test guide.
Hybrid service workload: <\/strong> In SPC-1 test, multiple service workload is used for is used for concurrency testing to verify response times of storage systems in hybrid service scenarios. Main indicators include different data types (text, binary, and sparse), different block sizes (8 KB to 128 KB), and different read\/write ratios, such as sequential reads and writes or random reads and writes.
Varying service pressure: <\/strong>The SPC increases and decreases dynamic workload behaviors to test storage performance of varying service pressure. Specifically, SPC starts the test from the peak value before gradually decreasing and then increasing service pressure. Then it simulates two service peaks as shown in the figure on the left.1. Performance value and latency in different pressure scenarios:<\/strong>
The OceanStor 18800F V5 has a maximum performance of 6 million IOPS and a latency of shorter than 1 ms.
<\/strong> 2. Response time stability: <\/strong>Statistics show that 99.984% I\/O responses are within 1 ms.
Huawei OceanStor F V5, Groundbreaking High-Performance All-Flash Storage<\/strong>
Equipped with OceanStor V3 converged storage systems, rich store of enterprise-class features and high-availability ratings, Huawei's OceanStor F V5 all-flash storage takes performance and integration to the next level, with architectures specifically designed for all-flash layouts. Huawei\u2019s newest offerings provide organizations with a complete data management solution for their critical services and leverage built-in optimizations to enable all-flash, all-cloud, and all-intelligence strategies. The mid-range and high-end offerings extend Huawei's flash portfolio, adding to those able to meet even broader range of customer requirements.
Huawei is committed to provide continuously higher performance and reliability to all storage customers, satisfying everescalating
demands from the application environments at organizations of all sizes. Huawei Storage has been breaking records in SPC-1\u2122 performance testing since 2010. The OceanStor 18800F V5 is the latest offering to break away from the pack, demonstrating immense advantages of the intelligence-infused flash storage, under scrutiny of industry testing.The OceanStor F V5 uses innovative self-developed flash end-to-end architecture (including multi-core CPU optimization), and leverages adaptive cache and self-developed SSD algorithms to achieve in-depth integration of system software and hardware. Its superior performance provided by all-flash storage helps deliver superb user experience, helping core businesses easily embrace the era of all-flash storage.
This storage system uses next-generation self-developed SSD controller chips with high performance to work with new-generation efficient patent algorithms, providing users with reliable and high-performance SSD drives. Equipped with self-developed dedicated controllers optimized for all-flash storage, the industry-leading system architecture, and multi-controller processing architecture with load balancing, the OceanStor F V5 provides powerful all-flash processing capabilities. It fully meets algorithm-processing requirements of all-flash systems. Moreover, advanced processor resource allocation algorithms, LDPC error correction algorithms, and RAID 2.0+ technology achieve longevity of SSDs and fast I\/O response, unleashing the potential of all-flash storage.
<\/div><\/div>
Follow and connect with us on Twitter<\/a>, Facebook<\/a>, Linkedin<\/a>, Youtube<\/a><\/div>","NumberOfSentences":{"minfo":"50.0","minfoseo":"50-0"},"AutomatedReadabilityIndex":{"minfo":"14.0","minfoseo":"14-0"},"LastPublishMilliTime":{"minfo":"1526980463218","minfoseo":"1526980463218"},"ReadabilityGradeLevel":{"minfo":"College","minfoseo":"college"},"HashCode":{"minfo":"-1207270341","minfoseo":"-1207270341"},"latestnewsflag":{"minfo":"1.0","minfoseo":"1-0"},"NumberOfCharacters":{"minfo":"7497.0","minfoseo":"7497-0"},"NumberOfWords":{"minfo":"1052.0","minfoseo":"1052-0"},"key":[{"keyid":"6536448","value":"storage performance council","smid":"0","keynameseo":"storage-performance-council","keytype":"","keycount":"totalcount","weightage":"20"},{"keyid":"6388684","value":"storage","smid":"0","keynameseo":"storage","keytype":"","keycount":"totalcount","weightage":"20"},{"keyid":"6357456","value":"huawei","smid":"0","keynameseo":"huawei","keytype":"","keycount":"totalcount","weightage":"20"},{"keyid":"6521146","value":"high speed","smid":"0","keynameseo":"high-speed","keytype":"","keycount":"totalcount","weightage":"20"},{"keyid":"102186","value":"Fujitsu","smid":"0","keynameseo":"Fujitsu","keytype":"","keycount":"totalcount","weightage":"20"}],"authorsplit":[],"similarlytagged":[{"msid":"64208403","stname":"Key approaches for selecting high-performance all-flash storage","artsyn":"A Brand Connect Initiative.","seolocation":"telecomnews\/key-approaches-for-selecting-high-performance-all-flash-storage","seolocationalt":"Key approaches for selecting high-performance all-flash storage","url_seo":"key-approaches-for-selecting-high-performance-all-flash-storage"}],"primeid":0,"storytags":{"categoryTag":{"sectionid":"49830939","sectionname":"TelecomNews","seolocation":"telecomnews","seolocationalt":"telecomnews"},"otherTags":[{"keyid":"6536448","value":"storage performance council","smid":"0","keynameseo":"storage-performance-council","keytype":"","keycount":"totalcount","weightage":"20"},{"keyid":"6388684","value":"storage","smid":"0","keynameseo":"storage","keytype":"","keycount":"totalcount","weightage":"20"},{"keyid":"6357456","value":"huawei","smid":"0","keynameseo":"huawei","keytype":"","keycount":"totalcount","weightage":"20"},{"keyid":"6521146","value":"high speed","smid":"0","keynameseo":"high-speed","keytype":"","keycount":"totalcount","weightage":"20"},{"keyid":"102186","value":"Fujitsu","smid":"0","keynameseo":"Fujitsu","keytype":"","keycount":"totalcount","weightage":"20"}],"filterTags":[]},"formattedTags":{"companyTags":[],"otherTags":[{"name":"storage performance council"},{"name":"high speed"},{"name":"storage"},{"name":"Fujitsu"},{"name":"huawei"}],"newsCategoryTags":[{"name":"TelecomNews","seolocation":"telecomnews"}],"breadcrumbTags":["storage performance council","storage","huawei","high speed","Fujitsu"],"filterTags":[]},"breadcrumbTags":["storage performance council","storage","huawei","high speed","Fujitsu"],"Alttitle":{"minfo":""},"Altdescription":{"minfo":""},"amp_url":"\/\/www.iser-br.com\/amp\/news\/key-approaches-for-selecting-high-performance-all-flash-storage\/64208403","associated":{"articles":{"64208403":{"msid":"64208403","stname":"Key approaches for selecting high-performance all-flash storage","artsyn":"A Brand Connect Initiative.","seolocation":"telecomnews\/key-approaches-for-selecting-high-performance-all-flash-storage","seolocationalt":"Key approaches for selecting high-performance all-flash storage","url_seo":"key-approaches-for-selecting-high-performance-all-flash-storage"}}}}" data-news-images="[{"msid":"64208673","msname":"Key approaches for selecting high-performance all-flash storage","msnameseo":"key-approaches-for-selecting-high-performance-all-flash-storage","mediatype":"1","artdate":"2018-05-17 18:22:00.0","caption":""},{"msid":"64208674","msname":"Key approaches for selecting high-performance all-flash storage","msnameseo":"key-approaches-for-selecting-high-performance-all-flash-storage","mediatype":"1","artdate":"2018-05-17 18:22:00.0","caption":""},{"msid":"64208676","msname":"Key approaches for selecting high-performance all-flash storage","msnameseo":"key-approaches-for-selecting-high-performance-all-flash-storage","mediatype":"1","artdate":"2018-05-17 18:22:00.0","caption":""},{"msid":"64208679","msname":"Key approaches for selecting high-performance all-flash storage","msnameseo":"key-approaches-for-selecting-high-performance-all-flash-storage","mediatype":"1","artdate":"2018-05-17 18:22:00.0","caption":""},{"msid":"64208682","msname":"Key approaches for selecting high-performance all-flash storage","msnameseo":"key-approaches-for-selecting-high-performance-all-flash-storage","mediatype":"1","artdate":"2018-05-17 18:22:00.0","caption":""},{"msid":"64208684","msname":"Key approaches for selecting high-performance all-flash storage","msnameseo":"key-approaches-for-selecting-high-performance-all-flash-storage","mediatype":"1","artdate":"2018-05-17 18:22:00.0","caption":""},{"msid":"64208686","msname":"Key approaches for selecting high-performance all-flash storage","msnameseo":"key-approaches-for-selecting-high-performance-all-flash-storage","mediatype":"1","artdate":"2018-05-17 18:22:00.0","caption":""},{"msid":"64208687","msname":"Key approaches for selecting high-performance all-flash storage","msnameseo":"key-approaches-for-selecting-high-performance-all-flash-storage","mediatype":"1","artdate":"2018-05-17 18:22:00.0","caption":""},{"msid":"64208691","msname":"Key approaches for selecting high-performance all-flash storage","msnameseo":"key-approaches-for-selecting-high-performance-all-flash-storage","mediatype":"1","artdate":"2018-05-17 18:22:00.0","caption":""},{"msid":"64208695","msname":"Key approaches for selecting high-performance all-flash storage","msnameseo":"key-approaches-for-selecting-high-performance-all-flash-storage","mediatype":"1","artdate":"2018-05-17 18:22:00.0","caption":""},{"msid":"64208696","msname":"Key approaches for selecting high-performance all-flash storage","msnameseo":"key-approaches-for-selecting-high-performance-all-flash-storage","mediatype":"1","artdate":"2018-05-17 18:22:00.0","caption":""}]" data-newsletter-by="0" data-newsletter-date="a" data-hasbottomcarousel="" data-alldetailsopen="0" data-multipleanalyticshit="" data-deeplink="https://ettelecom.app.link?$deeplink_path=" data-socialshareformat="default">
