TRICONEX 8312可以創(chuàng)建集成電路來執(zhí)行任意操作模擬的和數(shù)字的信號(hào)。在計(jì)算中，信號(hào)通常是數(shù)字的，可以解釋為二進(jìn)制數(shù)據(jù)。計(jì)算機(jī)硬件和軟件對(duì)二進(jìn)制表示的信息進(jìn)行操作以執(zhí)行計(jì)算；這是通過計(jì)算完成的布爾函數(shù)在……上位輸入和輸出結(jié)果給一些輸出設(shè)備下游為儲(chǔ)存；儲(chǔ)備或者深加工。

TRICONEX 8312因?yàn)樗袌D靈機(jī)可以運(yùn)行任何可計(jì)算函數(shù)總有可能設(shè)計(jì)出與給定軟件執(zhí)行相同功能的定制硬件。相反，軟件總是可以用來模擬給定硬件的功能。定制硬件可以為軟件中指定的相同功能提供更高的性能功耗比。硬件描述語言(HDL)例如Verilog和極高密度脂蛋白可以模擬相同的語義學(xué)作為軟件和綜合設(shè)計(jì)成一個(gè)網(wǎng)表可以編程到FPGA中，也可以寫入邏輯門集成電路。

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TRICONEX 8312絕大多數(shù)基于軟件的計(jì)算發(fā)生在實(shí)現(xiàn)馮·諾依曼建筑，統(tǒng)稱為存儲(chǔ)程序計(jì)算機(jī)。計(jì)算機(jī)程序被存儲(chǔ)為數(shù)據(jù)執(zhí)行經(jīng)過處理器。這種處理器必須提取和解碼指令，以及加載數(shù)據(jù)操作數(shù)從記憶(作為的一部分指令周期)來執(zhí)行構(gòu)成軟件程序的指令。依靠一個(gè)共同的隱藏物導(dǎo)致“馮諾依曼瓶頸”，這是對(duì)實(shí)現(xiàn)馮諾依曼架構(gòu)的處理器上的軟件吞吐量的基本限制。即使在改良的哈佛建筑，其中指令和數(shù)據(jù)在分級(jí)存儲(chǔ)器體系解碼指令有開銷操作碼和多路技術(shù)有空的執(zhí)行單位在一個(gè)微處理器或者微控制器，導(dǎo)致電路利用率低?，F(xiàn)代處理器提供同時(shí)多線程利用可用處理器功能單元的未充分利用指令級(jí)并行不同硬件線程之間。

TRICONEX 8312可以創(chuàng)建集成電路來執(zhí)行任意操作模擬的和數(shù)字的信號(hào)。在計(jì)算中，信號(hào)通常是數(shù)字的，可以解釋為二進(jìn)制數(shù)據(jù)。計(jì)算機(jī)硬件和軟件對(duì)二進(jìn)制表示的信息進(jìn)行操作以執(zhí)行計(jì)算；這是通過計(jì)算完成的布爾函數(shù)在……上位輸入和輸出結(jié)果給一些輸出設(shè)備下游為儲(chǔ)存；儲(chǔ)備或者深加工。

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The TRICONEX 8312 can create integrated circuits to perform arbitrary operations on analog and digital signals. In computation, signals are usually digital and can be interpreted as binary data. Computer hardware and software operate on binary representations of information to perform calculations; This is done by calculating the Boolean function in… The upper input and output results are stored downstream for some output devices; Reserve or further processing.

TRICONEX 8312 Because all Turing machines can run any computable function it is always possible to design custom hardware that performs the same function as a given software. Instead, software can always be used to simulate the functionality of a given piece of hardware. Custom hardware can provide a higher performance-to-power ratio for the same functions specified in software. Hardware description languages (HDL) such as Verilog and very high density lipoprotein can simulate the same semantics as software and synthesise design into a nettable that can be programmed into an FPGA or written into a logic gate integrated circuit.

The vast majority of software-based computing in the TRICONEX 8312 takes place in implementation of von Neumann buildings, collectively known as stored program computers. Computer programs are stored as data executed by processors. Such a processor must extract and decode instructions, as well as load data operands from memory (as part of the instruction cycle) to execute the instructions that make up the software program. Relying on a common cache results in a “von Neumann bottleneck,” which is a fundamental limitation on software throughput on processors that implement von Neumann architectures. Even in the modified Harvard building, where instructions and data are decoded in hierarchical memory systems, instructions have overhead opcodes and multiplexing techniques available to execute units in a microprocessor or microcontroller, resulting in low circuit utilization. Modern processors offer simultaneous multithreading to take advantage of the underutilized instruction-level parallelism of available processor functional units between different hardware threads.

The TRICONEX 8312 can create integrated circuits to perform arbitrary operations on analog and digital signals. In computation, signals are usually digital and can be interpreted as binary data. Computer hardware and software operate on binary representations of information to perform calculations; This is done by calculating the Boolean function in… The upper input and output results are stored downstream for some output devices; Reserve or further processing.

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