Benchmark Reviews has now completed performance testing of our Intel Core i7-5960X Haswell-E processor. As this is Intel’s first 8-core consumer processor, we have high expectations for this top-end iteration of the new Haswell-E architecture. Equipped with Intel’s 22nm, “3D” transistors, 20 megabytes of on-chip cache, and a new DDR4 memory controller, the 5960X is unlike anything Intel’s ever done before.
Category Archive: Processors
The newest installment of AMD FX CPUs is finally upon us. September 2014 marks the release of the a few new FX CPUs, including the FX-8370, the FX-8370E, and the FX-8320E. Although I, for one, have been anxious to see a new FX CPU lineup using Steamroller cores, the three CPUs released today follow the same pattern as the last two years worth of FX CPU in using Piledriver cores. With the AMD Kaveri APUs showing up at the beginning of 2014 with Steamroller cores, I thought perhaps the FX series wouldn’t be far behind. Looks like we will be waiting until next year at least. Today, Benchmark Reviews takes a look at the FX-8370 and FX-8370E processors.
Intel has upped the ante for LGA2011 systems with the new LGA2011-V3 specification, comprising the new X99 chipset and Haswell-E CPUs. The top-end Core i7-5960X is Intel’s first consumer 8-core CPU and boasts an amazing 20 megabytes of on-chip cache and a new quad-channel DDR4 memory controller. As with the original “Sandy Bridge Extreme” Core i7-3960X CPU, the new Haswell-E systems will be very expensive. Benchmark Reviews does the work so you can see if they make sense for you.
Sporting a configurable TDP and all of the Kaveri features (GCN graphics cores, Steamroller CPU cores, HSA, etc.), the A10-7800 which Benchmark Reviews will be looking at today sits right in between the A10-7850K and A10-7700K. What type of performance was AMD able to extract from this 65W APU? Read on to find out.
With the release of AMD’s Kaveri APU and the realization of their heterogeneous compute vision, the A10-7850K has the potential to make a lot of changes in the way we use the processing power available to us. The A10-7850K can harness the full power of both its CPU and GPU cores equally, something that can benefit us, the end users, greatly. The problem is, that vision doesn’t fully come to life until developers start writing for it.
Today marks the release of the latest in a long line of AMD Accelerated Processing Units. Benchmark Reviews has been there for each one of the previous APU releases, and we would be remiss if we didn’t provide you with the latest news regarding this release. It has been a long road since Llano, the very first generation of AMD APUs, was announced just three short years ago at CES 2011. That processor brought together AMD’s long held vision of putting a discrete level GPU on the same die as the CPU; a vision that started back with the Fusion project and AMD’s acquisition of ATI.
When Intel sends out press samples of their new CPUs, they generally provide the top-end desktop products like the Core i7-4470K. And it’s fun to have the latest new super-fast processor to play with. But most people don’t need this level of power, and indeed in many cases even enthusiasts won’t make full use of the capabilities of a high-end part. Given that, might a less expensive, mid-range CPU be a better choice? Benchmark Reviews tests the mid-range Intel Core i5-4430 CPU, desktop processor model BX80646I54430, to find out.
AMD has a pattern when it comes to processor releases. They release a new processor, run it through its paces for a while, then they release more of the same die with higher clock speeds. Generally, though, the new processors release at something closer to the release price of the first series of processors. That is the one part of the equation missing from this summer’s AMD APU releases. The AMD A10-6700 is the second processor coming out in June 2013 with an MSRP of $142. In this article, Benchmark Reviews is taking a detailed look at the A10-6700, especially its differences from the unlocked A10-6800K.
So far, it seems that the early summer of 2013 is destined to be full of Intel Haswell coverage. Rather than consigning themselves to the shadows, AMD is quietly releasing two new members of their APU family. The next generation of APUs is being represented at the top by the A10-6800K and the A10-6700 Accelerated Processing Units, codenamed Richland. It has been about eight months since AMD released the last generation, Trinity APUs. When that happened, AMD took back the performance lead from Ivy Bridge in the sub-$150 CPU price range. This has been AMD’s bread and butter for a while now, especially with their ability to pair discrete level graphics with their CPUs that totally decimate the onboard capabilities of their opponent. Haswell may change things, but for now, we’ll see where AMD is setting the bar for entry-level performance. In this article, Benchmark Reviews takes a hard look at the third generation of AMD APUs with the top end AMD A10-6800K Richland Processor.
After months of rumors and speculation, Intel’s 4th generation Core CPUs, code-named Haswell, are here. Haswell CPUs are a “tock”– that is, a new microarchitecture– in Intel’s “tick-tock” annual release cycle. Based on the same 22nm fabrication process and 3-D transistors introduced with last year’s Ivy Bridge CPUs, Haswell brings with it a new socket 1150, which means that you can’t just drop it in to replace an Ivy Bridge or Sandy Bridge CPU, since you’ll need a new motherboard. But what new features and performance does Intel’s Haswell processor bring with it? Let’s find out.