As a programmer, much of your challenge is to cope with unceasing change: new protocols, application programming interfaces (APIs), customer requirements, hardware constraints, and so on.
作为程序员,很多挑战是要应付不断的更改:新的协议、应用程序编程接口(API)、客户需求、硬件约束等。
On modern hardware, most non-optimized Python programs run as fast as they need to, and there is really no point in spending extra programming effort to make an application run faster.
在最新的硬件上,大多数非优化的Python程序运行的速度和所需要达到的速度一样快,而且,花费额外的编程工作以使应用程序运行得更快实在没什么意义。
A managed programming model for data parallelism, task parallelism, and coordination on parallel hardware unified by a common work scheduler.
一个托管编程模型,支持数据并行处理,任务并行处理,并通过一个通用的工作调度器统一协调并行运行的硬件。
The major work in the paper includes choice of chip and other components, designing the hardware circuit and wiring, software and hardware programming, and so on.
论文详细介绍了实现过程中的具体工作,主要包括芯片的选型、硬件电路的原理设计和布线以及软硬件编程等。
This design makes high use of hardware resource about FPGA, programming with VHDL language, achieving FIR filter with high sampling level based on FPGA.
该设计对FPGA硬件资源的利用高效合理,用VHDL编程,在FPGA中实现了高采样率的F IR滤波器。
Some key technologies on hardware programming control such as GPIB communication technology, 8255A chip'scontrolling by program, step-motor's driving technology, are also introduced in paper.
论文还对系统各部分硬件编程控制的关键技术进行了介绍,如GPIB通讯技术、8255A的编程控制、步进电机驱动技术等。
Surrounding the common process of designing DSP, detailed research is made on hardware designing and DSP programming.
围绕DSP系统开发的一般流程,在硬件设计和DSP算法编程两方面进行了深入研究。
It contrapose discusses hardware deploy and software programming based on the sequence control characteristic in tube end expanding machine and PLC's hardware deploy and software function.
根据扩口成型机顺序控制的特点以及PLC及其组件齐全的硬件配置和软件功能,有针对性地具体研究扩口成型机的硬件配置和软件编制。
Again, on the foundation of hardware, the software used modular programming to achieve the speed and current double closed loop field oriented control.
再次,在硬件的基础上,软件采用模块化编程,实现了转速和电流双闭环磁场定向控制。
External operating system interfaces and application programming interfaces (APIs) are different on different hardware and software platforms.
在不同的软件或硬件平台上,外部运算系统接口和应用程序接口是不同的。
A design scheme of radar interface based on USB technology is presented. Techniques of hardware circuit design, firmware programming and application software design are illustrated.
提出一种基于usb的雷达接口电路设计方案,给出硬件电路设计、固件编程、应用软件设计等关键技术的解决方法。
This paper Makes a deep research in the software and hardware realization of fault location system with radial feeders, stressing on the design of the hardware system and software programming scheme.
本文对基于“递进信息法”的配电网馈线故障定位系统的硬、软件实现进行了较深入的研究,重点设计了硬件系统和软件编程方案。
This paper, based on the theories of genetic programming (GP) and evolvable hardware (EHW), provides an extrinsic function level evolution technique.
提出了一种函数级演化硬件的实现方案,这是一种间接演化的方法。
This paper discusses in detail the different parts of the system hardware circuit, single chip computer, FPGA design, software programming and top-down design methods and so on.
本文详细论述了系统各部分硬件电路组成,单片机和FPGA的软件编程设计以及自上而下的设计方法。
We have developed an intellective diagnosing apparatus to diagnose scale on-linely and real-timely based on MCS-51, and show its hardware structure principle and software programming methods.
利用MCS-51系列单片机开发出了一套可在线实时诊断污垢的智能监测装置,给出了该装置的硬件原理结构及软件编程思路。
The author completes the whole design flow of the signal generator based on DDS, including project design, hardware circuit design and VHDL programming.
作者完成了整个DDS信号产生器的设计流程,包括方案设计、硬件电路设计、以及VHDL程序设计。
The hardware of control system is analyzed and chosen, the motion controller programming is in key research and the rotating measuring system software packages is developed on basis of this.
对控制系统硬件进行分析、选择,对运动控制器编程进行重点研究,并在此基础上开发出旋转测量系统配套软件。
We have developed a multifunctional control system based on MCS-51, and show its hardware structure principle and software programming methods.
本文利用MCS 51系列单片机开发出了一套多功能控制系统。
It depends on the hardware, through clever programming full potential of the hardware.
它依赖于硬件,能通过巧妙的程序设计充分发挥硬件的潜力。
It depends on the hardware, through clever programming full potential of the hardware.
它依赖于硬件,能通过巧妙的程序设计充分发挥硬件的潜力。
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