Isima’s Z3 VM Success: Get 10X Throughput, Half the Cost

Isima’s experiment with Z3 virtual machines for e-commerce yielded a price-performance ratio of two times and a throughput of ten times.

Workloads requiring a lot of storage, such as log analytics and horizontal, scale-out databases, require a high SSD density and reliable performance. They also require regular maintenance so that data is safeguarded in the case of an interruption. Google Cloud Next ’24 marked the official launch of Google  Cloud’s first storage-optimized virtual machine family, the Z3 virtual machine series. Z3 delivers extraordinarily dense storage configurations of up to 409 SSD (GiB):vCPU on next-generation local SSD hardware, with an industry-leading 6M 100% random-read and 6M write IOPs.

One of the first companies to test it was the Silicon Valley company and e-commerce analytics cloud, Isima. Their bi(OS) platform offers serverless infrastructure for AI applications and real-time retail and e-commerce data. In order to onboard, process, and operate data for real-time data integration, feature stores, data science, cataloguing, observability, DataOps, and business intelligence, it has a scale-out SQL-friendly database and zero-code capabilities.

Google Cloud compares Z3 to N2 VMs for general purposes and summarises Isima‘s experiments and findings in this blog post. Warning: There will be spoilers ahead: Google  Cloud promises 2X better price-performance, 10X higher throughput, and much more.

The examination

Isima tested Z3 on a range of taxing, real-world ecommerce workloads, including microservice calls, ad hoc analytics, visualisation queries, and more, all firing simultaneously. As a Google  Cloud partner, Isima was granted early access to Z3.Image credit to Google cloud

In order to optimise Z3 and emulate real-world high-availability implementations, Isima separated each of the three z3-highmem-88 instances into five Docker containers, each of which was deployed across several zones to run bi(OS). There were two 3TB SSDs, 128GB RAM, and 16 vCPUs allotted to each Docker container. With this configuration, Isima was able to compare Z3 more effectively with earlier tests that they ran with n2-highmem-16 instances.

Isima evaluated the following to simulate extreme stress and several worst-case scenarios:

Demand spikes

They demanded (and attained) 99.999% reliability despite hitting the system with a brief peak load that saturated system resources to 70%. They then relentlessly maintained a 75% of that peak for the whole 72-hour period.

Select queries

To prevent inadvertent caching effects by the operating system or bi(OS), they tested select queries. To make sure they were reading data from the Local SSD and not RAM something vital for Z3 Isima purposefully travelled back in time while reading data (using select queries), for example, by querying data that had been entered 30 minutes earlier. They were secure that the outcomes of performance testing would withstand the demands of everyday work because of this.

Various deployment scenarios

Z3’s capacity to manage a range of real-world deployments was validated by testing of both single-tenant and multi-tenant setups.

Simulated maintenance events

Z3’s adaptability to disruptions is demonstrated by Isima, which even factored in scheduled maintenance utilising Docker restarts.

The decision

Throughput: With 2X higher price-performance, bi(OS) on Z3 handled ~2X+ more throughput than the tests conducted using n2-highmem-16 last year.

NVMe disc latencies: Read latencies remained constant, but write latencies improved by almost six times.

Drive variation: Every drive on every z3-highmem-88 virtual machine recorded a variance in read and write latencies of +/- 0.02 milliseconds over a span of 72 hours.

These findings for the new Z3 instances excite Google  Cloud, and they will undoubtedly unleash the potential of many more workloads.

Improved encounter with maintenance

Numerous new infrastructure lifecycle technologies that offer more precise and stringent control over maintenance are included with Z3 virtual machines. The mechanism notifies Z3 VMs several days ahead of a scheduled maintenance event. The maintenance event can then be planned at a time of your choosing or it can automatically occur at the scheduled time. This enables us to provide better secure and performant infrastructure while also enabling you to more accurately plan ahead of a disruptive occurrence. Additionally, you’ll get in-place upgrades that use scheduled maintenance events to protect your data.

Driven by Titanium

Z3 virtual machines are constructed using Titanium, Google’s proprietary silicon, security microcontrollers, and tiered scale-out offloads. Better performance, lifecycle management, dependability, and security for your workloads are the ultimate results. With Titanium, Z3 can offer up to 200 Gbps of fully secured networking, three times faster packet processing than previous generation virtual machines (VMs), near-bare-metal speed, integrated maintenance updates for most workloads, and sophisticated controls for applications that are more sensitive.

“Going forward, Google  Cloud is pleased to work with us on the development of Google  Cloud’s first storage-optimized virtual machine family, building on Google cloud prosperous collaboration since 2016.” Through this partnership, Intel’s 4th generation Intel Xeon CPU and Google’s unique Intel IPU are made available, opening up new performance and efficiency possibilities. – Suzi Jewett, Intel Corporation’s General Manager of Intel Xeon Products

Hyperdisk capacity

Google Cloud offers their next-generation block storage, called Hyperdisk. Because Hyperdisk is based on Titanium, it offers much improved performance, flexibility, and efficiency because it separates the virtual machine host’s storage processing from it. With Hyperdisk, you can effectively meet the storage I/O requirements of data-intensive workloads like databases and data analytics by dynamically scaling storage performance and capacity separately. Choosing pricey, huge compute instances is no longer necessary to obtain better storage performance.

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(via https://www.youtube.com/watch?v=z3vM-6ycUVc)

Z3 VMs Unveiled: Discover Unmatched Efficiency in Google

Storage-dense workloads require reliable performance, high SSD density, and data-preserving maintenance. They launched google cloud first storage-optimized VM family, the Z3 machine series, last week at Google Cloud Next ‘24. Z3 VMs offer more storage capacity for fewer cores, reducing total cost of ownership by offering more storage capacity for fewer cores. They also have an industry-leading 6M 100% random-read and 6M write IOPs, an incredibly dense storage configuration of up to 409 SSD (GB) per vCPU, and a highmem configuration.

Google Compute Engine and Kubernetes Engine customers get the enterprise-grade performance and reliability of the 4th Gen Intel Xeon scalable processor, Google’s custom Intel Infrastructure Processing Unit (IPU), and the latest Local SSD in the Z3 machine series. Next-generation Local SSDs in Z3 offer 3x disc throughput and 35% lower disc latency than previous generations. Z3 is perfect for horizontal, scale-out, flash-optimized, data warehouse, and other dense storage applications.

Z3 initially comes in two configurations: 176 vCPU with 1.4T DDR5 memory and 88 vCPU with 704 GB and 36TB of next-generation Local SSD.

Improvements in maintenance New infrastructure lifecycle technologies in Z3 VMs improve maintenance management and specificity. It’s receive system maintenance notices several days in advance. You can schedule the maintenance event or let it default. This lets you plan ahead for disruptive events and gives us better performant and secure infrastructure. In-place updates and planned maintenance events will protect your data.

Powered by Titanium Google’s Titanium system of custom silicon, security microcontrollers, and tiered scale-out offloads powers Z3 VMs. Workload performance, lifecycle management, dependability, and security improve. Titanium gives Z3 up to 200 Gbps of fully encrypted networking, 3x faster packet-processing than previous generations, near-bare-metal speed, integrated maintenance updates for most workloads, and improved controls for critical applications.

We’re excited to work with Google Cloud on its first storage-optimized VM family after a successful cooperation since 2016. This partnership delivers Intel’s 4th Gen Intel Xeon processor and Google’s proprietary Intel IPU for increased efficiency and performance. Intel Corporation General Manager-Intel Xeon Products Suzi Jewett

Hyperdisk storage Google Cloud’s latest block storage is Hyperdisk. Hyperdisk, built on Titanium, decouples storage processing from the virtual machine host to boost performance, flexibility, and efficiency. Data-intensive applications like data analytics and databases may easily fulfil storage I/O needs using Hyperdisk’s dynamic storage performance and capacity scaling. You no longer need pricey, massive compute instances to improve storage performance.

Start Z3 now Us-central1 , europe-west4 , and asia-southeast1 have Z3 VMs. When building a new VM or GKE node pool in Google Cloud, pick Z3 under the new Storage-Optimized machine family to use Z3 instances. Visit the Z3 machine series page. Ask your Google Cloud sales person for area availability.

Introduction Virtual machines (VMs) are essential in cloud computing, where efficiency, speed, and scalability are key. The revolutionary Z3 VMs have changed virtualization. This detailed tutorial explores it’s unmatched IOPS . capabilities and the features and benefits that make them industry leaders in performance.

Understanding IOPS Before discussing Z3 VMs, they must understand IOPS in cloud computing. IOPS, which monitors storage device read and write speeds, is a key system performance parameter. Higher IOPS numbers mean faster data transfer speeds and better responsiveness, making them crucial for fast, flawless applications.

The Z3 VMs Benefit Unmatched Performance

A complex design powers Z3 VMs’ unmatched performance. Z3 VMs have industry-leading IOPS thanks to powerful processors and optimized storage. Z3 VMs enable lightning-fast performance for data-intensive workloads and real-time transactions, improving cloud infrastructure efficiency.

Scalability, Flexibility Z3 VMs’ unrivalled performance, scalability, and flexibility enable enterprises to adapt and develop in a changing digital landscape. Z3 VMs optimize resource utilization and cost effectiveness by effortlessly scaling resources up or down on demand. Z3 VMs give startups and established enterprises the agility and scalability they need to stay ahead.

Better Reliability Cloud computing requires reliability since even a small outage can have serious repercussions. Because of this, Z3 VMs prioritize stability and resilience. By using redundant components and robust failover techniques, Z3 VMs reduce downtime and maintain continuous availability, boosting mission-critical application confidence.

Applications in Real Life

The unequalled IOPS of Z3 VMs opens up many opportunities across sectors and use cases. From real-time data processing for high-frequency trading platforms to lightning-fast inference for AI-driven apps, Z3 VMs enable organizations to innovate and evolve. Z3 VMs provide the performance and stability you need to succeed in finance, healthcare, e-commerce, or other fields.

Conclusion Finally, Z3 VMs offer unmatched IOPS performance, scalability, and dependability, marking a milestone in cloud computing. Businesses may boost innovation and efficiency by using Z3 VMs to maximize their cloud infrastructure. Z3 VMs are ready to lead the digital age in speed, scalability, and reliability as technology advances and high-performance computing demands rise.

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