闪存芯片的存储部分的驱动器的固件。
现代的闪存芯片比前几代更复杂的架构。
Modern flash chips have more complicated architecture than previous generations.
Jhai电脑没有硬盘,而是依靠闪存芯片存储资料。
Instead of a hard disk, the Jhai PC relies on flash-memory chips to store its data.
同时也有可能在一个单元存储多个字节,比如闪存芯片。
There is also the possibility of storing multiple bits per cell, such as in flash memory chips.
新的读出模式为了闪存芯片位错误有大的计算。
"Readout" mode for NAND memory chips which have a huge count of bit errors.
这种模式是非常有效的,这将有助于获得闪存芯片的最好结果。
This mode is very effective and it will help to get the best result of NAND chips.
闪存驱动器包含至少一个闪存芯片,可用于存储电脑内的文件。
The flash drive includes at least one flash memory chip operable to store files transferred from the computing device.
今天,他说闪存芯片的需求将会超过供应量,特别是在今年的下半年。
Today, he said demand of flash memory chips will exceed supply in the second half.
这种特殊的驱动器采用16三星64千兆多级单元(MLC)闪存芯片。
This particular drive utilizes 16 Samsung 64 gigabit multi-level cell (MLC) flash chips.
到2010年,由于智能手机销量的上涨,闪存芯片的需求量也将随之上涨81%。
Demand for flash is expected to grow 81 percent in 2010, based on the growth of smartphone sales.
有时没有对PCB闪存芯片,该芯片是指位于微控制器内部闪存的内容。
Sometimes there is no flash chip on PCB that means content of the flash located inside MCU.
允许用户闪存社民党数据板载闪存芯片取代社民党闪存芯片的内存模块。
Allow users to flash SPD data on the onboard flash chip instead of the SPD flash chip on the memory modules.
闪存驱动器还包含一个显示屏,可用于显示存储在闪存芯片上的文件信息。
The flash drive also includes a display operable to display information related to files stored on the flash memory chip.
当您申请一个驱动电源,单片机芯片读入内存的闪存芯片内容,并启动代码。
When you apply power on a drive, MCU chip reads content of the flash chip into the memory and starts the code.
第二个版本,JFFS2,作为用于微型嵌入式设备的原始闪存芯片的实际文件系统而出现。
The second version, JFFS2, is emerging as the de facto filesystem for raw flash chips for tiny embedded devices.
使用TLC的架构,制造商可以生产更便宜的NAND闪存芯片,并提高其容量。
Using TLC architecture, manufacturers can produced cheaper NAND flash chips and increase its capacity.
考虑到闪存芯片的价格,把这么贵的东西肢解不是最实用的解决方案,但放在那里不用白不用。
It's not the most practical of solutions, considering the price of flash-based memory, but at least the option is there.
它是基于该公司的最先进的V - NAND闪存芯片和一个特别设计的高性能控制器。
It is based on the company's most advanced V-NAND flash memory chips and a specially-designed high-performance controller.
不过他表示闪存业者会使用液浸式光刻机制造位密度在64 - 128gbit的闪存芯片产品。
However, he did say chip makers expect to ship 64 and 128 Gbit flash devices using immersion tools.
在闪存芯片上储存图像的便携式摄像机中那些价格较低的型号也在热销,2009年的销量有望增加两倍。
Low-priced camcorders that store images on chips called flash memory are also a hot category, pegged to grow units more than double in 2009.
不过闪存业务方面,东芝的战略则没有任何变化,他们仍将继续保留其名下的NAND闪存芯片厂。
Toshiba will continue to keep and maintain its NAND flash fabs. There appears to be no change on that front.
新工厂将制造NAND闪存芯片,其广泛用于多种设备如mp3播放器、窝式移动电话、码相机等。
The new plant will manufacture NAND flash memory chips, which are widely used in a host of products including MP3 players, cellphones and digital cameras.
当前,mtd子系统支持为数众多的闪存设备—并且有越来越多的驱动程序正被添加进来以用于不同的闪存芯片。
Currently, the MTD subsystem supports a wide range of flash devices — and more and more drivers are being added for different flash chips.
举例来说,尽管三星在电视机和闪存芯片方面是世界领先者,该公司仍坚持不懈衡量自身和竞争者之间的力量对比。
Though Samsung, for example, is a world leader in televisions and flash memory chips, it continues relentlessly to measure itself against its competitors.
MTD设备是象闪存芯片、小型闪存卡、记忆棒等之类的设备,它们在嵌入式设备中的使用正在不断增长。
MTD devices are those class of devices like flash chips, compact flash CARDS, memory sticks, and so on, which are increasingly finding their way into embedded devices.
这可能是最重要的一点:JFFS2是专门为象闪存芯片那样的嵌入式设备创建的,所以它的整个设计提供了更好的闪存管理。
Perhaps most importantly, JFFS2 was specifically created for embedded devices like flash chips, so its overall design provides better flash management.
由于三星,东芝以及海力士等闪存芯片大厂需要优先满足苹果的需求,因此导致了闪存芯片供需状况越发紧张的状况。
NAND flash supply has reportedly become tighter as major chip producers Samsung Electronics, Toshiba, Micron and Hynix Semiconductor favor demand for Apple devices.
有些系统具有两个闪存芯片,这让我们可以使用其中一个来引导系统,然后对另外一个进行编程,但是并非所有的系统都有这种功能。
Some systems have two flash chips and let you use one to boot and then program the other, but not all systems do this.
如果使用CPLD方法配置FPGA,则可在一个NOR闪存芯片中存储fpga比特流和所需的代码;这可能是最简单的系统设计。
If you use the CPLD method of configuring the FPGA, you can store both the FPGA bitstream and the required code in a single NOR flash chip; it's probably the simplest system design.
如果使用CPLD方法配置FPGA,则可在一个NOR闪存芯片中存储fpga比特流和所需的代码;这可能是最简单的系统设计。
If you use the CPLD method of configuring the FPGA, you can store both the FPGA bitstream and the required code in a single NOR flash chip; it's probably the simplest system design.
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