Dynamic RAM
Random Access Memory (RAM) is the kind of memory that loses its content when the computer power is turned off.
Random Access Memory (RAM) is the kind of memory that loses its content when the computer power is turned off.
Random Access Memory (RAM) is the kind of memory that loses its content when the computer power is turned off.
ROM: Read Only Memory, Memory that can only be read, it cannot be rewritten. RAM: Random Access Memory, it's a kind of memory that can be read and rewritten many times, it loses its information when it loses power.
Data and files
A compact flash memory card can hold all kinds of data. It can hold pictures, documents, anything as long as it does not go over the maximum size of the memory card.
A type of temporary data storage unit, which is very fast and can be accessed quick. It is used by operating system and programs. Data stored in memory is lost on power down.
Computer memory is a form of computer data storage, which takes the form of integrated circuits. There are two types of computer memory: Random-access memory (RAM) and Read-only memory (ROM).
If a coach loses a challenge of any kind, his team loses a time out.
Flash Memory
IN USB pen/USB drive their is EEROM, which means Electronicaly Eraisable Read Only Memory. EEROM is a kind of Read only memory in which you can write, read or store and delete your data.
Harvard architecture:The original Harvard architecture computer, the Harvard Mark I, employed entirely separate memory systems to store instructions and data. The CPU fetched the next instruction and loaded or stored data simultaneously and independently. This is by contrast with a Von Neumann architecture computer, in which both instructions and data are stored in the same memory system and (without the complexity of a cache) must be accessed in turn. The physical separation of instruction and data memory is sometimes held to be the distinguishing feature of modern Harvard architecture computers. However, with entire computer systems being integrated onto single chips, the use of different memory technologies for instructions (e.g. Flash memory) and data (typically read/write memory) in Von Neumann machines is becoming popular. The true distinction of a Harvard machine is that instruction and data memory occupy different address spaces. In other words, a memory address does not uniquely identify a storage location (as it does in a Von Neumann machine); you also need to know the memory space (instruction or data) to which the address applies.Modified Harvard architecture:A pure Harvard architecture computer suffers from the disadvantage that mechanisms must be provided to separately load the program to be executed into instruction memory and any data to be operated upon into data memory. Additionally, modern Harvard architecture machines often use a read-only technology for the instruction memory and read/write technology for the data memory. This allows the computer to begin execution of a pre-loaded program as soon as power is applied. The data memory will at this time be in an unknown state, so it is not possible to provide any kind of pre-defined data values to the program.The solution is to provide a hardware pathway and machine language instructions so that the contents of the instruction memory can be read as if they were data. Initial data values can then be copied from the instruction memory into the data memory when the program starts. If the data is not to be modified (for example, if it is a constant value, such as pi, or a text string), it can be accessed by the running program directly from instruction memory without taking up space in data memory (which is often at a premium).