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If the CPU gets too warm, overclocking stops automatically. It adjusts each core’s frequency dynamically according to load and thermal budget. A CPU with 400 MHz continually delivered 400 MHz. I think two or more CPUs ended up as very expensive bricks because I did not manage the heat correctly.
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I played a lot with different cooling fans and thermal greases to get the most out of my old Intel Pentium workhorse. Several years ago, I was overclocking my computer’s CPU. Not as strong multi-threading performance.As a good administrator, of course, you know at what speed your machines run because you have an eye on your CPU usage at any time – but do you? Modern CPUs do not make things easy.Fewer cores to split between applications.Lower single-threaded performance than a higher clock speed processor.You'll probably be able to run more apps in conjunction with Live without seeing performance drops.Live supports multi-threading, therefore the more cores are available, the more efficient it will be when working with larger sets with higher track counts, or when working with large instrument or effect racks.Here's a breakdown of the pros and cons of both: More cores, slower clock speed If your budget allows it we recommend getting the fastest processor and maximum amount of cores that you can afford. Which is more beneficial, a faster CPU speed or more cores?īoth are important. Why do I have high CPU load in a set with just one track?īecause Live uses one thread per signal path, a set with just one track could potentially result in high CPU load if the track contains, for instance, a CPU-intensive instrument followed by a large chain of CPU-intensive effects.
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Any dependent set of tracks will use one thread each. If two tracks are "chained" by routing, for instance by a side-chain routing, they are considered dependent tracks and count as one signal path. In tracks where instrument or effect racks are used, with multiple chains in parallel, Live may use one thread per chain depending on how CPU-intensive each chain may be. A signal path is a single chain of audio flow. Live uses one thread to process a signal path. How many threads are used per Live track? Likewise, Live supports up to 64 processing threads for audio calculation.
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#MAC CPU SPEED MAC#
Live supports up to 64 cores for audio processing on Mac and Windows. How many cores and threads of a multi-core processor can be utilized at once? In Live 9, if your computer only has a single-core processor, hyper-threading is automatically disabled in order to preserve the correct order of the threads to be processed. Hyper-threading is enabled by default in Live for computers with multi-core processors. Hyper-threading is a feature of certain processors which allows them to further subdivide cores so that two concurrent threads can be handled per core. Multi-threading is the ability of an application or operating system to utilize multiple cores for processing. A thread in Live might typically constitute an audio clip playing, followed by an audio effect, then an output to the Master track. A program can divide itself into several threads in order to be able to run on multiple cores. What is a thread?Ī thread is a sequence of instructions executed by a CPU core. In Live 9’s Preferences you can enable or disable multi-core support on the CPU tab. Live 9 can run on single core computers, but performance will be limited. Enabling multi-core supportĪ multi-core processor is required to run Live 10 and 11, therefore it is always active by default. Virtually all modern systems have multi-core processors as standard. M ulti-core processors allow more efficient simultaneous processing of multiple tasks, making them more powerful than single-core processors. A quad-core processor is a multi-core processor with four independent microprocessors. A dual-core processor is a multi-core processor with two independent microprocessors. The actual processors are still on one chip.