Today Intel has held its Innovation party, and as quite a few have been hunting forward to, in particular just after AMD’s announcement of its Ryzen 7000 collection CPUs, the firm announced its 13th Gen Main CPUs based mostly on Raptor Lake. There will be some 22 processors in this family and they will get the job done with current motherboards with the Intel 600 sequence chipset and the new 700 collection chipset, and like the 12th Gen pieces, help equally DDR4 and DDR5 memory.
These new CPUs are staying made on the company’s Intel 7 manufacturing procedure and are to give up to 15% far better solitary-threaded effectiveness and up to 41% improved multi-threaded performance. Not to dismiss or diminish that multi-thread functionality improvement, but Intel has doubled the amount of E-cores in this hybrid architecture in some instances. This incorporates the i9-13900K that has eight P-cores, like its predecessor the 12900K, and 16 E-cores, double that of Intel’s present flagship. Part of how its one-thread improvement has been accomplished is by obtaining up to a five.8 GHz enhance. Both equally i9 CPUs will offer Adaptive Strengthen Technologies and Thermal Velocity Boost to get the most effective clocks it can, when there is the electricity and thermal headroom to accomplish it.
A slide from Intel lists 6 of the new CPUs 3 K and the matching 3 KF processors. The only variances involving them are the KF variation lacking the integrated GPU and this variation remaining a tiny fewer expensive. All of these six CPUs present 20 PCIe lanes, a 125 W foundation electricity ranking, greatest memory speeds of DDR4 3200 and DDR5 5600, and a highest memory ability of 128 GB. The non-F variations all offer you Intel UHD Graphics 770 integrated GPUs. As these are also all K components, they are all unlocked as effectively.
At the major of the stack are the i9-13900K(F) CPUs that have 8 P-cores and 16 E-cores, as I described earlier mentioned, for a complete of 32 threads from these 24 cores. The foundation clock for the P-cores is 3. GHz when the boost clock is up five.8 GHz. The E-cores have a base clock of 2.2 GHz and maximum increase of four.three GHz. The optimum turbo electric power is 253 W. For cache, the full L2 cache is 32 MB and there is 36 MB of L3. Coming to the pricing, the 13900K is at $589 whilst the 13900KF is at $564.
Likely down a action we have the i7-13700K(F) areas, which feature 8 P-cores and 8 E-cores for a full of 24 threads. The P-cores have a base clock of three.four GHz and a enhance of up to five.4 GHz even though the E-cores have a foundation of two.5 GHz and a boost of four.2 GHz. Like the i9, the highest turbo electricity is 253 W. For cache we have 24 MB of L2 and 30 MB of L3. The pricing is $409 for the i7-13700K and $384 for the 13700KF.
Arriving at the i5 elements now, we have the i5-13600K(F) processors with six P-cores and eight E-cores for a full of 20 threads. The P-cores have a foundation clock of 3.five GHz when the utmost raise is five.one GHz and the E-cores have a base of two.six GHz and a improve of 3.nine GHz. The optimum turbo electrical power utilization is down as opposed to the i7 and i9 at only 181 W. The i5 functions 20 MB of L2 cache and 24 MB of L3. The i5-13600K will be priced at $319 with the 13600KF priced at $294.
These K course CPUs alongside with the Z790 chipset will be offered on Oct 20. Information and facts on other 13th Gen processors will be shared at a afterwards date.
Even though I did not see it shared in the Intel Newsroom, Phoronix is reporting the Arc A770 graphics card will be arriving on Oct 12 and priced at $329. It will attribute 32 Xe cores capable of managing at two.one GHz, which is enough to place it in the area of the RTX 3060 for overall performance, which is correct as the pricing also strains up. Like the new CPUs, it will be exciting to see how this compares to its opposition based mostly on 3rd-party testing.
Last of all, Intel has also released the XeSS SDK. For individuals who could not don’t forget, this is Xe Super Sampling and is meant to compete with NVIDIA’s DLSS and AMD’s FSR, though technologically it may well be nearer to the former. While FSR, both equally 1. and two., can be operate by standard shaders on most any GPU, XeSS applies a deep-discovering product to boost the upscaling, like DLSS 1, 2, and the recently announced 3. As these types of, ideal overall performance is accomplished with specialized components on Intel GPUs, but there is also a cross-vendor model that will get the job done with any GPU supporting SM 6.four, with acceleration for DP4a getting recommended. Within the GitHub repository is a developer guide PDF that might show exciting to study through. For the time being at the very least, assistance seems to be confined to DirectX 12.