Find out how Teledyne LeCroy's WorkloadIntelligence SaaS solution is helping Managed Service Providers provide value added services to fix customer's workload and/or system performance issues.
We will look at how organizations can apply the core concepts of Zero Trust to mitigate their risk and prevent firmware based attacks such as DMA attacks.
Learn how Teledyne LeCroy's Epic Chamber SSD test solutions help our customers discover “hard to find” performance and functionality bugs that they can proactively act on.
Find out how our customer used Teledyne test tools to identify the issue causing a Directed Test failure on their SSD.
DataAgent is a smart capture tool developed as a series of custom plug-ins that can capture different variants of production system and workload data in Data Center enviroments.
OakGate's SSD Test Platforms running SVF Pro/Enduro has three options for testing Zoned Namespace (ZNS) – Exerciser, Directed Tests, Automation. Our ZNS feature requirements were developed with the inputs from a number of our current customers.
Planning, designing & characterizing Data Center production workloads is critical to the overall business success and efficiency for any Data Center operations team. Teledyne LeCroy’s OakGate WorkloadIntelligence™ Analytics provides deeper insight into what is happening at the system and storage layer to what DCs could get previously. This allows the DC to improve overall workload performance.
Deep Analyzer is a patent-pending deep analysis solution that works in combination with Teledyne LeCroy’s OakGate SVF Pro/Enduro SSD validation platform. Deep Analyzer gives SSD validation engineers visibility into issues and failures that weren’t possible before by capturing hours/days of protocol analyzer trace data and validating the data is correctly stored and securely erased.
Customers have long been familiar with OakGate SVF Pro and LeCroy Analyzer tools. Our new WorkloadIntelligence™ Analytics tool allows customers to derive even more benefit from their existing tools.
Because most tools report data as averages and histograms, some problems can be hard to identify and correlate. In addition, problems that span multiple layers can also be hard to identify and correlate. Analytics provides a means to deal with both of these issues. Teledyne LeCroy has developed a suite of advanced software tools called WorkloadIntelligence that delivers on the promise of providing analytics and replay capabilities for testing SSDs with real-world workloads
This white paper shows a comparative analysis of storage industry SSDs using Teledyne LeCroy WorkloadIntelligence™ Analytics application.
A datacenter workload, a Linux block trace provided by one of our Teledyne LeCroy hyperscale data center customers, was used for the comparative analysis. The goal for the comparative analysis was to see how other industry SSDs handle the same burst of latency I/Os highlighted in the trace.
The trace was captured using a customer’s production system and replayed on an OakGate appliance. Because Teledyne LeCroy uses a proprietary driver, which sits in user space and tunnels through directly to the hardware, we are able to faithfully reproduce the workload to the drive without operation system induced variation in the workflow.
This white paper describes the benefits of using real-world workloads and how real-world workloads can be analyzed for data center improvements.
This white paper addresses the need and issues of transitioning to SSDs in the data center, as well as the current and future trends of qualifying SSDs in the data center.
A scalable and easy-to-deploy storage performance, validation, analysis, and workload-modeling environment
This white paper describes the features of OakGate’s file system / block exerciser and how customers can quickly and easily run pre-packaged storage workloads and view immediate results. Our exerciser helps customers avoid:
This white paper defines atomicity as it pertains to testing of flash based storage devices, such as SSDs, and examines various scenarios and expected device behaviour under each scenario.