或者那次英特尔发现奔腾芯片存在数学错误的事件。
Or when Intel learned that its Pentium chip contained a math error.
我们把数学和力学的手段应用到芯片里。
We use math and mechanics methods and apply them to microchips.
最后,在对基因芯片的数学分析方法进行了研究后,运用其中的手工分类法对本次实验数据进行了分析,对实验结果进行了可靠性分析。
Finally, after studying the mathematical methods of anglicizing gene chip, experimental data were analyzed by using manual classification method. The reliability of experimental result was analyzed.
专门用于复杂数学算法处理和复杂控制领域的DSP芯片具有较快的系统速度和较强的数学运算能力,比一般的单片机具有很强的数学运算能力。
The DSP chip, which is special for complex mathematical operation and control fields, has rapid operation speed and higher mathematical operation ability.
接着介绍了接收机的构成和数学模型、采用的信号采集芯片及实现数字化下变频的主要器件—FPGA。
Then the receiver structure and mathematical model, signal collection chip and fpga-main implementation device of digital down conversion are introduced.
差分功率分析(DPA)方法可有效地对加密的集成电路芯片进行攻击解密,它绕过了加解密算法繁琐的数学分析,从而获取密码和信息。
The method of DPA may attack on encrypted FPGA effectively, which does not need complex analysis to encryption arithmetic and obtains ciphertext and information.
针对高速高精芯片封装平台的交流永磁直线同步电机驱动系统,阐述直线电机运行的基本机理,并建立简洁实用的数学驱动模型。
Based on the ac permanent magnetic synchronous linear motor in IC packaging devices, the fundamental principle of linear motor is introduced and a simple but effective model is established.
印度理工大学的一开始是无晶圆厂的半导体产品供应商的数学协处理器和图形芯片组市场。
IIT began as a fabless vendor of semiconductor products for the math coprocessor and graphics chipset markets.
椭圆曲线密码(ECC)是一种非常复杂的数学算法,设计出能够完整实现ECC算法的专用集成电路芯片(ASIC)非常困难。
Elliptic Curve Cryptography (ECC) is a rather complicated algorithm. It is difficult to design an application specific integrated circuit (ASIC) to fully implement ECC.
椭圆曲线密码(ECC)是一种非常复杂的数学算法,设计出能够完整实现ECC算法的专用集成电路芯片(ASIC)非常困难。
Elliptic Curve Cryptography (ECC) is a rather complicated algorithm. It is difficult to design an application specific integrated circuit (ASIC) to fully implement ECC.
应用推荐