AMD's 64-Core Processor Benchmarks Revealed | B450 Motherboards Support PCIe 4.0

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Table of Contents

AMD's 64-Core Processor Benchmarks Revealed | B450 Motherboards Support PCIe 4.0

Table of Contents

  • Introduction
  • Google's Stadia and the Vega GP
  • The Specifications of Google's Stadia
  • PCIe 4.0 and Older Motherboards
  • A Cool Update for Gigabyte Motherboards
  • Budget-Oriented B450 Motherboards
  • The 64-Core Processor by AMD
  • The 32-Core Processor by AMD
  • Comparing the Clock Frequencies
  • Conclusion

Introduction

In this article, we will be discussing and analyzing the latest tech news that has been buzzing over the past 24 hours. One of the main topics we will be exploring is the leading-edge technology used in Google's Stadia platform. Additionally, we will take a closer look at the specifications of Google's Stadia, PCIe 4.0 compatibility with older motherboards, the recent update for Gigabyte motherboards, and the latest processors by AMD. Let's dive in and explore these exciting developments in the tech world!

🎮 Google's Stadia and the Vega GP

The recent accidental confirmation by the Khronos Group has shed light on the powerhouse behind Google's Stadia gaming platform. It has been revealed that the 14 nm Vega GP will be the driving force behind the Stadia. While rumors initially suggested the use of the Ryzen 7, it seems that the custom variant of the first-generation Vega chip will be the core component. The reason behind this choice lies in the conformant products and the Vulkan API, where the GCN architecture of Vega 7 NM 1.5 proves to be the right fit for Google's Stadia. However, the specifications of the Stadia, which include 16 gigabytes of memory and up to 4804 gigabytes per Second of memory bandwidth, raise some interesting questions.

🔍 The Specifications of Google's Stadia

The specifications of Google's Stadia reveal some intriguing details. The listing of 16 gigabytes of HBM2 memory and the 4804 gigabytes per second of memory bandwidth seem puzzling. Under normal circumstances, with 16 gigabytes of HBM2 memory, we would expect to see up to one terabyte per second of memory bandwidth due to the stacking of memory. It is possible that Google is using larger HBM dies or some other innovative approach that we are yet to fully understand. Another possibility is that the specification also includes onboard memory located directly on the motherboard, alongside the GPU. This would explain the discrepancy and open up new possibilities for optimizing memory allocation for the Stadia platform.

🖥 PCIe 4.0 and Older Motherboards

One of the exciting advancements in the tech world is the introduction of PCIe 4.0. With the release of the Ryzen 3000 series, the support for PCIe 4.0 has become a hot topic. However, there is a catch when it comes to compatibility with older motherboards such as the X470 or X370. These motherboards were not initially designed with PCIe 4.0 in mind, so there might be limitations. Longer traces on older motherboards can lead to unstable electrical signaling, preventing the smooth operation of PCIe 4.0. Despite this, there is good news for owners of Gigabyte motherboards.

💡 A Cool Update for Gigabyte Motherboards

Owners of Gigabyte motherboards, rejoice! A recent discovery by a Redditor named M bran has revealed that certain Gigabyte motherboards, including the X470 Aorus Gaming 7 Wi-Fi, actually support PCIe 4.0 with the latest BIOS update (F40). This update introduces three PCIe slot configurations: Auto, Gen 1, Gen 2, and Gen 4. This exciting development expands the compatibility of PCIe 4.0 beyond the newer X570 motherboards to a select group of Gigabyte motherboards. Additionally, reports suggest that budget-oriented B450 motherboards are also starting to support PCIe 4.0 in some cases, making this technology accessible to a wider range of users.

💪 The 64-Core Processor by AMD

AMD has once again raised the bar with their 64-core processor, attracting significant attention in the tech world. Although the specific details have not been officially released, leaked information has given us a glimpse into the raw power of this processor. With a high clock frequency and impressive performance, the 64-core part ranks as one of the top performers in arithmetic calculations. The name of the processor, Zx1406e2vjugv22/14_n, provides insights into its clock frequency and qualification status.

⚙️ The 32-Core Processor by AMD

In addition to the 64-core processor, AMD has also unveiled a 32-core variant with 64 Threads. This processor, known as Zs1711e3vivg5247/19n, offers similar core and thread counts as the current Epic CPUs. While it runs at a slightly lower clock frequency than its 64-core counterpart, it still impresses with its base frequency. Notably, the level 3 cache of this processor is confirmed to be twice the size of the first-generation Epic CPUs, boasting an impressive 128 megabytes.

🔁 Comparing the Clock Frequencies

Comparing the clock frequencies of the 64-core and 32-core processors reveals interesting insights. While the 64-core processor run at a higher frequency, the 32-core processor operates at a lower clock frequency, similar to the 64-core part. The clock frequencies of these processors indicate that AMD may be targeting specific markets or environments that prioritize a high number of CPU cores over high clock speeds. However, the true clock frequencies are yet to be confirmed, as these leaked samples might not necessarily represent the final retail products.

✨ Conclusion

In conclusion, the tech world is abuzz with the latest developments in gaming technology, motherboards, and processor advancements. Google's Stadia platform, powered by the Vega GP, promises an immersive gaming experience. The compatibility of PCIe 4.0 with older motherboards and the recent update for Gigabyte motherboards provide exciting opportunities for users. AMD's 64-core and 32-core processors push the boundaries of performance, with impressive clock frequencies and cache sizes. As these technologies continue to evolve, it is an exciting time to be a part of the ever-changing tech landscape.

Highlights

  • Google's Stadia platform powered by the Vega GP
  • Specifications of Google's Stadia
  • Compatibility of PCIe 4.0 with older motherboards
  • Exciting update for Gigabyte motherboards
  • AMD's 64-core and 32-core processors
  • Clock frequencies and cache sizes of the processors

FAQ

Q: Can I use PCIe 4.0 on older motherboards? A: While older motherboards were not designed with PCIe 4.0 in mind, recent updates for certain Gigabyte motherboards, as well as reports about budget-oriented B450 motherboards, suggest that PCIe 4.0 compatibility is becoming more accessible.

Q: How does Google's Stadia optimize memory bandwidth? A: The specifications of Google's Stadia, which include 16 gigabytes of memory and up to 4804 gigabytes per second of memory bandwidth, suggest the use of larger HBM dies or onboard memory located directly on the motherboard, in addition to the GPU memory.

Q: What are the advantages of AMD's 64-core and 32-core processors? A: AMD's 64-core and 32-core processors offer impressive performance with a high number of CPU cores. The larger levels 3 cache of these processors provides improved data processing capabilities.

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