DRAM is a static memory system that's speedy, reliable and volatile — it loses stored info when there's no power.
DRAM是一种静态内存系统,速度快、可靠而且易损失——在断电后会失去储存的信息。
Volatile random access memory (RAM).
易失性随机访问存储器(RAM)。
In particular, the memory model defines semantics for volatile, synchronized, and final that make guarantees of visibility of memory operations across threads.
特别是,内存模型定义了保证内存操作跨线程的可见性的volatile、synchronized和final的语义。
Atomic variables have memory semantics similar to that of volatile variables, but because they can also be modified atomically, they can be used as the basis for lock-free concurrent algorithms.
原子变量的内存语义与volatile变量类似,但是因为它们也可以被原子性地修改,所以可以把它们用作不使用锁的并发算法的基础。
While this may not seem like a positive, tmpfs data is not preserved between reboots, because virtual memory is volatile in nature.
这看起来可能不象是个积极因素,tmpfs数据在重新启动之后不会保留,因为虚拟内存本质上就是易失的。
The other major area where the existing JMM caused some very confusing results was with memory operation reordering on volatile fields.
另一个主要领域是与volatile字段的内存操作重新排序有关,这个领域中现有JMM引起了一些非常混乱的结果。
Reads and writes of atomic variables have the same memory semantics as read and write access to volatile variables.
读取和写入原子变量与读取和写入对可变变量的访问具有相同的存取语义。
No one has yet worked out, though, how to make non-volatile memory out of organic transistors.
然而,仍没有人找到用有机晶体管制造“非易失性”存储器的方法。
This mode provides more protection, because the data is mirrored to another node, just in volatile memory instead of the non-volatile disk.
该模式提供更多保护,因为数据被镜像到另一个节点,这仅仅是针对易失性内存,而不是非易失性磁盘。
Currently, computers rely on two distinct forms of memory: volatile and non-volatile.
目前,计算机的内存有两种形式:随机储存和永久储存。
MRAM is non-volatile memory, it is also power efficient and operates at ultra-high speed, the companies said in a joint statement.
据两家公司的联合声明称,MRAM是一种非易失性存储技术,它具备速度极快和耗电量低的优点。
The existing JMM says that volatile reads and writes are to go directly to main memory, prohibiting caching values in registers and bypassing processor-specific caches.
现有JMM 表明易失性的读和写是直接和主存打交道的,这样避免了把值存储到寄存器或者绕过处理器特定的缓存。
In a modern computer, these instructions are held in a so-called non-volatile memory that is part of the processor itself.
在现代计算机中,这些指令被存储在一块被称为“非易失性”存储器上,而这块存储器属于处理器本身的一部分。
Flash memory, which can come in several different technologies, is non-volatile memory, which means that its contents persist after its source of power is removed.
Flash内存(可以通过几种不同的技术实现)是一种非挥发性内存,这意味着断开电源之后其内容仍然保持下来。
The big problem with electric memory, however, is that it is volatile-the capacitors have to be recharged frequently so that they can continue to remember a"1".
然而,电存储器的大问题是,断电后信息即刻消失电容器必须频繁地重复充电才能使它们继续记住
Non-Volatile Random-Access Memory.
非易失的随机访问存储器。
Two complete front-panel settings (parameter selection and the sweep control) can be stored in a non-volatile memory and recalled at any time with a single key operation.
两个完整的前面板设置(参数选择和扫描控制)可以储存在非挥发性记忆体,并回顾在任何时候用一个关键作业。
In particular, as a non-volatile memory device undergoes many programming cycles, charge becomes trapped in the insulator or dielectric between the floating gate and the channel region.
特定来说,在非易失性存储器装置经历许多编程循环时,电荷变为俘获在浮动栅极与沟道区之间的绝缘体或电介质中。
Unless the memory used is non-volatile, a RAM disk loses the stored data when the computer is shut down.
除非使用的内存是非易失性的,RAM磁盘存储的数据丢失的计算机时关闭。
For example, non-volatile semiconductor memory is used in cellular telephones, digital cameras, personal digital assistants, mobile computing devices, non-mobile computing devices and other devices.
举例来说,非易失性半导体存储器用于蜂窝式电话、数码相机、个人数字助理、移动计算装置、非移动计算装置以及其它装置中。
Data held in memory is fast to access, but volatile.
保存在内存中的数据是快速访问,但不稳定。
Cracking this problem—so that transistors can act as their own non-volatile memory—would make all computers faster.
解决这个问题——以便于让晶体管使用自身的非易失性半导体存储器—将会让所有的电脑运行速度更快。
Methods: Making use of large capacity and non - volatile memory store digital information about physiologic signal.
方法:利用大容量非易失性可电擦除的存储器存储生理信号的数字信息。
Main memory is a volatile storage device. It loses its contents in the case of system failure.
主存储器是一个易失性存储设备。系统失败时,会丢失其内容。
Resistive random access memory (RRAM) is one of the most promising candidates for next generation of non-volatile memory.
在各种新型非挥发性存储器中,阻变存储器(RRAM)具有成为下一代存储器的潜力。
Memory can be split into two main categories: volatile and nonvolatile.
存储器可以分为两大类“易失的和非易失的。”
Non-volatile variohm, memory element, and its scaling method.
非易失性可变电阻器,存储器件,及其定标法。
As a result, they could potentially underpin a new generation of high density, non-volatile memory chips and logic circuits that mimic biological synapses.
因此,它们具有打造下一代高密度、非易失存储芯片和模仿生物神经节的逻辑电路的潜力。
As a result, they could potentially underpin a new generation of high density, non-volatile memory chips and logic circuits that mimic biological synapses.
因此,它们具有打造下一代高密度、非易失存储芯片和模仿生物神经节的逻辑电路的潜力。
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