Ethereum: What mining performance can we roughly expect from the upcoming skylake processor architecture Intel Sha extensions
As the next generation of high -performance computing processors, Intel’s upcoming SkyLake microarchitecture promises to make significant improvements in various aspects of performance and energy efficiency. One of the main areas that will be greatly influenced by the new processor architecture is Ethereum’s mining performance.
The secure hash algorithm (SHA) extension, which was announced as part of Intel X86 SkyLake Microarchitecture, is to significantly increase hardware accelerated Sha processing capabilities for various applications, including blockchain and cryptocurrency mining. In this article, we will look at what the mining industry can expect from the Skylake processor architecture, focusing on Ethereum.
Background: How Sha Works
Before diving into the Skylake processor architectural details, it is important to understand how Sha works. Safe hash algorithms are used for data integrity and cryptographic purposes in various applications including blockchain and cryptocurrency systems. The SHA-256 algorithm is a widely used example that uses the hash function to obtain a fixed size string output from the input string.
These extensions in Skylake architecture
Intel X86 SkyLake Microarchitecture introduces a number of major innovation sha treatment:
1st
Hardware acceleration : Skylake processor architecture will provide hardware acceleration for sha algorithms, allowing them to be done faster and more efficiently with specialized hardware accelerators.
- Improved instruction level parallelism (IAP) : The new architecture will have advanced IAP options, allowing you to effectively use multiple processing cores to speed up a variety of tasks, including SHA calculations.
Mining Performance Expectations
While we do not have an accurate date for the release of SkyLake processor architecture or its Sha extensions, we can make some educated calculations based on industry trends and previous achievements. Here are some factors that will affect the acquisition indicators of Ethereum:
1
Hash rate : GPU (graphics processing units) hash speed is directly proportional to its clock speed, memory size, number of cores and support for the Shader model.
- clock speed : As the Skylake processor architecture introduces more clock speed to its main processing units, it will increase the overall performance of the GPU in sha calculations.
Approximately estimated mining performance
Assuming that we are talking about a well-established Ethereum mining platform with proper GPU (such as Nvidia GeForce GTX 1080 or AMD Radeon RX 580) and Intel CPU (Intel Core i7-6700K), here is an approximate mining calculation). Performance that can be expected from Skylake processor architecture:
* Clock Speed : The new Intel CPU is probably clock at around 3.6 GHz to 4.2 GHz, depending on the particular model.
* Hash Rate : With the approximate GPU clock speed ranging from 1.5 GHz to 2.0 GHz (depending on GPU), and the total system clock speed from about 3.9 GHz to 4.2 GHz we can expect the mixer to increase. at least 20% to 30%.
* Mining performance
: This means that mining performance increases is 10% to 15% compared to parent architecture (such as Sandy Bridge or Haswell).
Conclusion
The introduction of SHA extensions in Intel Skylake microarchitecture promises significant improvements in hardware accelerated Sha processing capabilities for Ethereum miners. Although we do not have accurate calculations, the approximate estimate shows that mining rates will increase by 10% to 15%, which can be achieved with a well-established GPU and Intel Core i7-6700K CPU.