Yes
Yes, the auditory code used in short-term memory (STM) can explain why people have better memory for information they hear rather than see. This is because auditory information tends to be processed more efficiently and encoded more deeply in STM compared to visual information, resulting in better recall. Additionally, auditory information can be rehearsed more easily through inner speech, enhancing memory retention.
Acoustic code refers to the way information is processed and remembered based on its sound or auditory attributes. In psychology, it is one of the three main forms of encoding in memory, alongside visual and semantic encoding. Acoustic coding involves storing information based on how it sounds, which can aid in memory recall through verbal repetition or auditory cues.
You don't really. That is, the memory capacity and function is restored when you restore power, but any information stored in memory is lost permanently.
Code Segment, in which all the application code is stored Data Segment, that holds the global data
RAM - Random-Access Memory
The code for the memory card - will be whatever YOU chose to set it ! WE cannot help you !
Memory.
Harvard architecture : _________ ______ | code | | | | memory | | CPU | <-----> |_________| | | | | ----------- | data | | memory | ---------------- the CPU generated address is either point to code or data memory. Princeton arhitecture: data memory <--------> CPU <-------> code memory in this the CPU generated address will point to both the data and code. for this some internal operation are take place to point to either data or code. answered by prasad. mail prasad40613@gmail.com
Compilers require more memory because they need to store various intermediate representations of the source code, such as abstract syntax trees and symbol tables, which are essential for analyzing and optimizing the code. Additionally, compilers often include multiple phases, such as lexical analysis, parsing, semantic analysis, and code generation, each of which demands its own data structures and memory allocation. Furthermore, optimizations can lead to increased memory usage as the compiler keeps track of additional information to enhance the final output.
ROM memory typically contains code which is essentially read during the start, operation and shutdown of a system, containing vital information about system components and their architecture as well as information and instructions on how they communicate with each other.To protect code which is vital for the correct functioning of a hardware system, data is being "hard coded" into the memory module (therefore "Read Only") thus preventing accidential damage to the code which would have a negative impact on performance or even render the whole system unusable.pfx 01/09
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Decoders are utilized to dissect information streams for a sure information code and give a yield if the information is available like a location to a fringe unit that needs benefit. a.)utilization of decoders as take after b.)microchip memory framework c.)microchip info yield framework d.)memory chip e.)microchip direction chip