![]() This tighter integration reduces memory latency even more. In contrast, Sandy Bridge's predecessor, Clarkdale, has two separate dies (one for GMCH, one for processor) within the processor package. Integration of the GMCH (integrated graphics and memory controller) and processor into a single die inside the processor package.Up to 8 physical cores, or 16 logical cores through hyper-threading (From 6 core/12 thread).Advanced Vector Extensions (AVX) 256-bit instruction set with wider vectors, new extensible syntax and rich functionality.256-bit/cycle ring bus interconnect between cores, graphics, cache and System Agent Domain.Improved performance for transcendental mathematics, AES encryption ( AES instruction set), and SHA-1 hashing.Sandy Bridge has a single BTB that holds twice as many branch targets as the L1 and L2 BTBs in Nehalem. Sandy Bridge retains the four branch predictors found in Nehalem: the branch target buffer (BTB), indirect branch target array, loop detector and renamed return stack buffer (RSB).Decoded micro-operation cache, and enlarged, optimized branch predictor.Two load/store operations per CPU cycle for each memory channel.Improved 3 integer ALU, 2 vector ALU and 2 AGU per core.Shared 元 cache which includes the processor graphics ( LGA 1155).32 KB data + 32 KB instruction L1 cache and 256 KB L2 cache per core.Intel demonstrated a Sandy Bridge processor with A1 stepping at 2 GHz during the Intel Developer Forum in September 2009. Sandy Bridge is manufactured in the 32 nm process and has a soldered contact with the die and IHS (Integrated Heat Spreader), while Intel's subsequent generation Ivy Bridge uses a 22 nm die shrink and a TIM (Thermal Interface Material) between the die and the IHS. Intel demonstrated a Sandy Bridge processor in 2009, and released first products based on the architecture in January 2011 under the Core brand. The Sandy Bridge microarchitecture is the successor to Nehalem and Westmere microarchitecture. Sandy Bridge is the codename for Intel's 32 nm microarchitecture used in the second generation of the Intel Core processors ( Core i7, i5, i3). Here is my current build.Bottom view of a Sandy Bridge i7-2600k Top of a Sandy Bridge i5 Provide any additional details you wish below.īelow is my old rig from 2011 where the only upgrade I made during the past 9 years was going from a GTX 570 to a GTX 970 because the 570 died. Prices include shipping, taxes, rebates, and discounts Thermaltake Riing Trio 12 RGB TT Premium Edition (3-Fan) 41.13 CFM 120 mm Fans Gigabyte GeForce RTX 2070 SUPER 8 GB WINDFORCE OC 3X Video CardĬorsair RM (2019) 750 W 80+ Gold Certified Fully Modular ATX Power Supply Samsung 970 EVO Plus 2 TB M.2-2280 NVME Solid State Drive Gigabyte X570 AORUS PRO WIFI ATX AM4 MotherboardĪDATA XPG SPECTRIX D60G 16 GB (2 x 8 GB) DDR4-3200 Memory Post a draft of your potential build here.ĪMD Ryzen 7 3700X 3.6 GHz 8-Core ProcessorĬorsair H115i RGB PLATINUM 97 CFM Liquid CPU Cooler In what country are you purchasing your parts? But this can be stretched depending on when the next generation of CPUs and GPUs are released. $200-$300 to keep my current build alive. LG 27GL83A-B 27 Inch Ultragear QHD IPS 1ms NVIDIA G-SYNC Compatible Gaming Monitor, Black I have this monitor:ĪSUS VG248QE 24" Full HD 1920x1080 144Hz 1ms HDMI Gaming Monitor,Black I'd like 60-80fps in my old build and max settings for modern games in a new build. If gaming, what kind of performance are you looking for? (Screen resolution, framerate, game settings) Play games like LoL, CoD, Overwatch, Final Fantasy, Hearthstone, RDR2, and other casual games. What is your intended use for this build?
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