With our comprehensive chart comparison, you can make a well-informed decision about which PC processor is right for you. With a ranking of the latest generation flagship high-end and low-end PC chips by rating, you can stay up to date with the best options available. If you're looking for a processor that's equivalent or similar in performance to other desktop chips, our chart will help you make an informed decision. Our chart also showcases the best PC CPU in its class (flagship high, low and mid-range), so you can choose the right processor for your needs. The leaderboard ranking of PC processors of all types allows you to see which model is the most powerful and good enough to be in the top 10 desktop CPUs.įind out which chip offers the best speed and how it ranks against other PC processors. Our PC processor hierarchy gives you an overview of the fastest to slowest options, so you can choose the processor that's right for you. With our tier list of desktop processors, you can see how each one ranks from best to worst, taking into account both single-core and multi-core performance. Whether you use Windows or Linux, you can find out which processor is the best for your needs. Our chart includes a full list of the latest desktop PC performance from all major brands, such as AMD Ryzen and Intel Core, and benchmarks the speed of the latest AMD Ryzen vs Intel Core CPUs. ![]() Our ranking system takes into account the latest desktop CPUs, comparing the speed of each one so you can make an informed decision when purchasing your next PC. It turns out that Slot1 was only a transition for the time when Intel was not able to place CPU core and L2-cache onto the same piece of silicon.Discover the best and fastest PC processors available with our detailed chart comparison. Once Intel is producing Pentium III in 0.18 micron technology, as planned for Q3 1999, this new high end CPU will also have on-die L2-cache (CPU code name 'Coppermine') and will most likely go back to a socket-solution as well. Socket370 is supposed to save Intel a major amount of money in production costs over Slot1 and the motherboards for Socket370 will also be cheaper to produce than Slot1 boards. Now since the L2-cache fits onto the CPU-die, there's no additional space needed anymore, as it is provided by Slot1 or Slot2. The reason behind Intel's move back to a socket rather than a slot-solution is pretty simple. Thus it can work with the known Pentium II chipsets, as 440BX, 440LX, 440EX and the new 440ZX from Intel or the Apollo Pro chipset from VIA. Socket370 is a conversion of Slot1 to a socket, running at the same bus protocol as the Pentium II, the GTL+ bus protocol. ![]() The new Socket370 looks pretty similar to Socket7 when you have a first peek at it, but it turns out that Socket370 has an additional row of pins. This L2-cache boosts the performance of Celeron into the same area as Pentium II CPUs at the same clock speed, so that there's hardly any performance advantage of Pentium II over Celeron anymore. They include the 128 kB on-die L2-cache, known from the previously released Celeron 300A and Celeron 333. The new Celeron CPUs are running at 66 MHz front side bus clock and at the core clock speeds of 366 and 400 MHz. ![]() ![]() On the beginning of January 1999 Intel launched two new Celeron CPUs, each for the well known Slot1 as well as for the new Socket370.
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