Author: Innogrit News

Innogrit News

PCIe Protocols Taking Center Stage

Innogrit Corporation

By offering faster data transfer rates, improved compatibility, and reduced power consumption, PCIe protocols are taking center stage and transforming the way we store and access information. In this blog post, we’ll dive deep into the world of InnoGrit Corporation PCIe protocols, exploring their impact on SSD performance, high-performance computing applications, and compatibility. We’ll also examine how the brand addresses heat management and power consumption challenges and take a peek into the future of SSD technology with PCIe 5.0 and beyond.

Revolutionizing SSD Performance

PCIe protocols have been crafted to enhance SSD performance in data storage by ensuring higher data transfer rates, greater compatibility, and lesser power consumption. Such outstanding performance is realized due to advanced PCIe technology coupled with its innovative design, which offers increased read/write speeds, improved compatibility with various form factors, and reduced power consumption compared to traditional SATA SSDs.

At FMS 2023, InnoGrit showcased their outstanding performance through a range of SSD controllers and module products, including the impressive IG5669 with up to 14,000 MB/s read and up to 12,000 MB/s write speeds.

Advantages of PCIe Protocols

The Company’s PCIe protocols present numerous advantages over conventional SATA SSDs, including faster read/write speeds, expanded storage capacity, and superior performance. By circumventing the bottlenecks associated with SATA or SAS-attached SSDs, PCIe-attached SSDs provide a superior choice for NVMe storage. In fact, NVMe SSDs offer increased read and write speeds compared to SATA SSDs, with the maximum performance of a SATA III controller reaching only approximately 600 MB/s.

Innogrit Corporation

Data Center Applications

Data centers stand to gain immensely from the company’s PCIe SSDs due to their high-performance, dependability, and flexibility. These protocols are applicable in a range of areas of data centers, including:

  • Consumer applications
  • Cloud computing
  • Artificial intelligence
  • High-end computers
  • Enterprise storage solutions

They are utilized in SSD controllers for performance-sensitive workloads and in-memory applications, such as machine learning, ensuring faster and more efficient processing of data-intensive applications.

Enterprise Server Solutions

They are also an excellent choice for enterprise servers, providing enhanced performance, faster data access, and diminished latency. This enables businesses to streamline their operations and efficiently handle data-intensive applications, ensuring better overall system performance and reliability.

Future of SSD Technology: PCIe 5.0 and Beyond

With the ongoing evolution of SSD technology, progress in PCIe 5.0, and upcoming technologies, the industry is set for further transformation. With even faster data transfer rates, improved performance, and new technologies on the horizon, the future of SSD technology holds exciting possibilities for both consumers and businesses alike.

PCIe 5.0 Advancements

PCIe 5.0 advancements promise even faster data transfer rates and improved performance for SSDs. With increased throughput of:

  • 14,000/12,000MB/s Seq Read/Write
  • 3.3/2.5Million 4K random Read/Write IOPS
  • Up to 32TB supported
  • Compliance with NVMe 2.0

The PCIe 5.0, with its advanced PCIe interface, is poised to have a significant impact on SSD performance.
These advancements, combined with high-speed NVMe SSDs, have the potential to revolutionize applications such as AI/ML and high-performance databases. By utilizing an NVMe SSD, users can experience significant improvements in speed and efficiency.

Emerging Technologies and Trends

Emerging technologies and trends in the SSD industry include increased storage capacities, enhanced security features, and continued innovation in performance optimization. Some of these trends and technologies include PCIe 4.0 SSDs, New Intel Optane SSDs, NVMe-oF, SSD storage at the edge, hybrid drives (HDDs + SSDs), cloud storage, and optical storage. These advancements are contributing to increased storage capacities, capabilities, durability, and reduced manufacturing costs of SSDs, with the SSD market expected to reach around $67 billion by 2028.

Summary

In conclusion, InnoGrit’s PCIe protocols are revolutionizing SSD performance by offering faster data transfer rates, improved compatibility, and reduced power consumption. With innovative heat sink solutions and power efficiency improvements, the brand addresses the challenges of heat management and power consumption in PCIe SSDs, ensuring optimal performance and reliability. As the future of SSD technology continues to evolve with PCIe 5.0 advancements and emerging technologies, we can look forward to even greater improvements in performance, efficiency, and compatibility.

The Cost-Effectiveness Of SSDs: Balancing Performance With Budget

Innogrit Corporation

Solid state drives (SSDs) boost businesses’ ability to support critical applications by enhancing the read and write speed of the HDDs that came before them. They’re the answer to enterprise workloads that most companies, particularly those whose disk-based storage suffers, crave.

With their low energy consumption, reduced overall cost of ownership, and the sheer performance power, InnoGrit Corporation reports that the SSD is the modern-day hero of the storage sphere.

SSDs Out-Perform Even the Fastest HDDs

The quickest hard drive is 15,000 RPM. But even though it’s impressive, it can’t hold a candle to NAND flash SSDs.

Non-volatile memory express-based SSDs have top speeds 20 to 40 times faster than hard drives. And they have physics to thank for that. Hard drives contain mechanical components that are in constant motion. As such, they break down more frequently than SSDs that have no mechanical elements.

Solid state drives use electricity instead of read heads and mechanical arms to produced data storage responses, with faster performance meaning quicker boot times and data movement.

Yet, Boasts Decreased Energy Consumption

At first glance, some may believe that all this speed comes with extra energy consumption, but this couldn’t be further from the truth.

Since HDDs come with moving parts, they require more energy to run than the small amounts of electricity flowing through SSD memory cells. The latter also avoids high heat that typically generates in the hundreds of spinning disks whirring away inside data centers.

The direct and indirect energy reduction effects are especially beneficial for organizations hosting numerous expansive data centers, all of which necessitate maintenance and energy. Decreasing the energy consumption, HVAC, and climate control costs through SSD usage improves the businesses’ overall sustainability.

More Expensive Than HDDs, But Reduced Overall Cost of Ownership

Innogrit Corporation

A Forrester Research/Micron survey of IT decision makers noted that 48% of those who haven’t started using SSDs said cost was the main barrier to adoption. But despite being costlier than HDDs initially, they reduce total cost of ownership in a number of ways:

Simplified Designs and Reduced Drives

The boosted storage capacity and application capability of solid state drives help enterprises reduce the system number they need, limiting cluster size and cutting complexity, simultaneously making things easier to manage and support. They enable:

  • Higher per-node capacity (14 TB with HDDs to over 22 TB with SSDs).
  • Better IOPS.
  • Fewer nodes to store data, making the design simpler.
  • Lower operating costs, even though the initial price to purchase is higher per drive.

Minimized Energy Costs

As mentioned above, solid state drives require less energy, despite their speediness, thanks to the lack of moving parts.

Lowered Software License Costs

SSDs provide more IOPS per node, alongside higher bandwidth. As such, they help utilize the full potential of the existing nodes. For most businesses, it allows them to do the same work with fewer nodes.

With an all-SSD design, node numbers are kept to a minimum and the software license costs are diminished if they pay on a per-node basis.

SSD Controllers Score Multiple Design Wins

Innogrit’s IG5236 Rainier controller has made major splashes in recent months as several leading SSD vendors have demonstrated new products built around the company’s latest design. This marks a major shift for the company, which had previously relied on smaller, entry-level SSD controller designs. And, thanks to the IG5236 Rainier’s more developed capabilities, it could replace once-industry-standard SSD controllers.

To better understand how Innogrit has managed to improve its SSD controllers, take a moment to read up on what these parts do, how they work, and how the IG5236 Rainier controller stands out from Innogrit Corporation’s older 4-channel DRAM-less options.

What are SSD Controllers and How Do They Work

An SSD is a piece of hardware that stores data using an integrated circuit assembly for memory that can store data persistently. Solid state drives are differentiated from HDDs (electromechanical devices that use spinning disks to store data), by their performance, capacity, and low latency. An SSD controller is the electronic circuitry within an SSD that communicates with a computer to carry out data read and write requests.

The SSD controller also manages the function of the SSD, including wear leveling (to ensure the memory cells are evenly used), error correction, and garbage collection (to reclaim space from deleted files). Controllers typically contain a processor and firmware, which work together to manage the data storage and retrieval process.

The processor is responsible for writing and reading data, while firmware manages the SSD’s overall operation. It is also responsible for mapping logical block addresses (LBAs) to physical locations on the drive. This is important because SSDs don’t have a physical write/read head like HDDs. Instead, data is read and written to the SSD in small blocks, which are then stored in larger blocks on the drive.

Innogrit News

What Makes the Innogrit IG5236 Rainier a Winning Design

The Innogrit IG5236 Rainier is an 8-channel SSD controller that supports PCIe 4 x4 and NVMe 1.4 protocols. It is based on the company’s prior designs but improves upon cost-driven DRAM-less architectures in favor of higher performance. This helps to improve I/O per second (IOPS) for random data access and to allow for more consistent read and write throughput.

The IG5236 Rainier is also a major upgrade in terms of speed and data capacity, jumping from 2 TB of data in previous Shasta designs to 16 TB in the Rainier, matched with boosted sequential read times from 3.2 GB/s to 7 GB/s. This makes the Innogrit IG5236 Rainier suitable for high-end clients, such as ADATA and BiWin, which have already showcased the controller in their products.

Although Innogrit Corporation is quite young compared to other SSD controller manufacturers, its founding team consists of veterans from well-known companies such as Marvell. If they can continue to impress with their winning designs, Innogrit controllers could soon be a staple across the industry.

The Bottom Line

The Innogrit IG5236 Rainier is a state-of-the-art SSD controller that has already won multiple design wins from leading SSD vendors. Thanks to its improved speed and data capacity, the IG5236 Rainier is well-suited for high-end applications. If Innogrit Corporation can continue to impress with its winning designs, its controllers could soon become a staple across the industry.

Next-Generation SSD Controllers are Ready to be Rolled Out

As data-intensive applications such as artificial intelligence (AI), big data, and cloud computing continue to grow, the need for faster and more efficient storage solutions also grows. Next-generation SSD controllers are designed to meet these needs by offering faster data rates and lower power consumption. InnoGrit Corporation—a growing powerhouse within the industry—is now ready to roll out its next-generation SSD controllers and bring computing into the future.

InnoGrit’s Tacoma IG5669 next-gen SSD controller is designed to overcome the limitations of traditional data processing by providing a more advanced storage solution for hyper scale data centers . While this may sound like something out of science fiction, let’s take a second to break down some of these terms and understand how next-generation SSD controllers will revolutionize computing.

To understand how the Tacoma IG5669 will revolutionize computing, we must first understand how traditional data processing works. Central processing units (CPUs) are the brains of computers. They interpret and carry out the basic instructions that make up programs. In order for a CPU to function, it needs two things—instructions and data.

The problem with traditional data processing is that it’s very limited in how much data it can process at any given time. This is due to the fact that CPUs need to fetch instructions and data before processing them. . As a result, the speed at which a CPU can process data is bottlenecked by the throughput of the memory system, which consists of onboard memory such as DRAM as well as large capacity storage device such as SSDs.

This is where the Tacoma IG5669 comes in. The Tacoma IG5669 is a next-generation SSD controller that is designed to overcome the limitations of traditional data processing by providing a very high throughput for data movement.

In fact, it’s able to move data at twice the speed as InnoGrit’s current flagship controller can perform. This is a major increase in speed and efficiency that will allow businesses, consumers, and data centers to process information much faster than they ever could before.

InnoGrit News

New Features Will Allow the Tacoma IG5669 to Outperform Competitors

Beyond being faster and more efficient than competing SSD controllers, InnoGrit Corporation has also designed the Tacoma IG5669 with several advanced features that will help it increase throughput and maintain endurance while it operates:

  • SR-IOV: SR-IOV is a hardware-based virtualization technology that allows a single physical device, such as an SSD, to appear as multiple virtual devices. Each virtual device can be used by a virtual machine or a legacy application running in the legacy OS, such as Windows Server, allowing direct access to the physical device’s performance.
  • Thermal Throttling Protection: Thermal throttling protection is a feature that slows down the SSD when it gets too hot. This prevents the SSD from being damaged by heat and also helps to prolong its lifespan.
  • Zoned Namespaces: ZNS is a new storage standard that allows for more efficient storage of data by arranging data consecutively in zones, and therefore aligning the data to SSD media perfectly. This reduces the amount of wasted space on the SSD and helps to improve performance.

The Bottom Line

Next-generation SSD controllers will help bring data storage into the modern age at a time when data-intensive applications are growing exponentially. InnoGrit Corporation is at the forefront of this revolution with its new Tacoma IG5669 SSD controller. Thanks to its increased speed and efficiency, as well as its advanced features, the Tacoma IG5669 is poised to take the SSD market by storm.