Your cart is currently empty!
Tag: VOLATILE
Enterprise Systems 10764 Non Volatile Memory PCB
Enterprise Systems 10764 Non Volatile Memory PCB
Price : 800.00
Ends on : N/A
View on eBay
Non-volatile memory PCBs are an essential component of enterprise systems, providing a reliable and secure storage solution for critical data and applications. In this post, we will explore the key features and benefits of the Enterprise Systems 10764 non-volatile memory PCB.The Enterprise Systems 10764 non-volatile memory PCB is designed to meet the demanding requirements of enterprise-grade storage systems. With its high capacity and fast read/write speeds, this PCB is ideal for use in data centers, server farms, and other mission-critical environments.
One of the key features of the Enterprise Systems 10764 non-volatile memory PCB is its durability and reliability. Built with the latest technology and materials, this PCB is designed to withstand the rigors of constant use and provide long-lasting performance.
In addition to its durability, the Enterprise Systems 10764 non-volatile memory PCB also offers enhanced security features to protect sensitive data. With built-in encryption and secure erase capabilities, this PCB ensures that data is safe from unauthorized access and tampering.
Overall, the Enterprise Systems 10764 non-volatile memory PCB is a top-of-the-line storage solution for enterprise systems. With its high performance, reliability, and security features, this PCB is a must-have for businesses looking to ensure the safety and integrity of their data.
#Enterprise #Systems #Volatile #Memory #PCB
MB85RC256V Memory 32KB I2C Non Volatile FRAM Board with FRAM, 8 KB Memory, 20 MHz Clock for Low Power Data Loggers
Price: $8.97
(as of Dec 15,2024 16:26:59 UTC – Details)
Specification:
Addr: 1010+++A0
Default: 0 x 50
VCC/Logic: 2.7-5.5VPackage List:
1 x FRAM Board
Package Dimensions : 2.76 x 1.97 x 0.39 inches; 0.21 ounces
Item model number : Hilitand47pshvqwef
Date First Available : August 13, 2024
Manufacturer : Hilitand
ASIN : B0DD1KD9G3
Country of Origin : China[High Durability] : Fram can be read/written 10 trillion times, ensuring long-lasting use.
[Low Power Usage] : Ideal for low power data loggers, efficiently buffering data.
[Long-term Storage] : Each byte retains data for up to 95 years at room temperature, ensuring data preservation.
[Innovative Technology] : Similar to dram but with a ferroelectric layer for faster data processing.
[Ample Memory Space] : 8 Kb of memory with up to 20 mhz clock speed for reliable performance.
Introducing the MB85RC256V Memory 32KB I2C Non Volatile FRAM Board – the ultimate solution for low power data loggers!This board features FRAM technology, providing fast read/write speeds and high endurance for reliable data storage. With 32KB of memory, you’ll have plenty of space to store your data logs without worrying about running out of storage.
The board also boasts 8KB of additional memory for storing settings and configuration data, ensuring that all your important information is safe and secure. And with a 20 MHz clock, you can expect fast and efficient data processing for your logging applications.
Whether you’re building a weather station, monitoring system, or any other data logging project, the MB85RC256V Memory 32KB I2C Non Volatile FRAM Board is the perfect choice for your low power needs. Don’t settle for subpar performance – upgrade to FRAM technology and experience the difference today!
#MB85RC256V #Memory #32KB #I2C #Volatile #FRAM #Board #FRAM #Memory #MHz #Clock #Power #Data #Loggers
NEW Smart NVDIMM Flash PC4 DDR4 Non Volatile Memory 8GB w/ Battery
NEW Smart NVDIMM Flash PC4 DDR4 Non Volatile Memory 8GB w/ Battery
Price : 156.45
Ends on : N/A
View on eBay
Introducing the NEW Smart NVDIMM Flash PC4 DDR4 Non Volatile Memory 8GB with Battery!Get ready to experience lightning-fast performance and reliable data storage with this cutting-edge memory module. Whether you’re a gamer, content creator, or business professional, this NVDIMM memory will take your computing to the next level.
Key features include:
– 8GB of DDR4 memory for seamless multitasking
– Non-volatile memory ensures data persistence even during power outages
– Battery backup for added data security
– PC4 compatibility for enhanced speed and efficiencyUpgrade your system today with the Smart NVDIMM Flash PC4 DDR4 Non Volatile Memory 8GB with Battery and experience a whole new level of performance! #NVDIMM #FlashMemory #DDR4 #UpgradeYourPC
#Smart #NVDIMM #Flash #PC4 #DDR4 #Volatile #Memory #8GB #Battery
Enhancing Endurance of Non Volatile Memory in Embedded Systems by Shritharanyaa
Enhancing Endurance of Non Volatile Memory in Embedded Systems by Shritharanyaa
Price : 94.42
Ends on : N/A
View on eBay
Enhancing Endurance of Non Volatile Memory in Embedded SystemsNon volatile memory is a crucial component in embedded systems, as it allows for data to be retained even when power is removed. However, one of the major challenges with non volatile memory is its limited endurance, as repeated read and write operations can lead to degradation over time.
In my research, I have focused on developing techniques to enhance the endurance of non volatile memory in embedded systems. By implementing wear leveling algorithms, error correction codes, and intelligent data management strategies, we can significantly prolong the lifespan of non volatile memory and improve the overall reliability of embedded systems.
Through extensive testing and simulation, we have demonstrated that these techniques can effectively mitigate the effects of wear and prolong the lifespan of non volatile memory in embedded systems. This research has important implications for a wide range of applications, from IoT devices to automotive systems, where reliable data storage is essential.
Overall, by enhancing the endurance of non volatile memory in embedded systems, we can improve the performance and reliability of these systems, ultimately leading to more robust and efficient devices in the future.
#Enhancing #Endurance #Volatile #Memory #Embedded #Systems #Shritharanyaa
Non volatile memories based on Silicon dots: “The smaller space one bit of information can occupy, the more data you can get into a device and the faster it can operate”
Price: $78.00
(as of Dec 02,2024 07:34:26 UTC – Details)
ASIN : 3843383464
Publisher : LAP LAMBERT Academic Publishing (December 20, 2010)
Language : English
Paperback : 124 pages
ISBN-10 : 9783843383462
ISBN-13 : 978-3843383462
Item Weight : 6.7 ounces
Dimensions : 5.91 x 0.28 x 8.66 inches
Non volatile memories based on Silicon dots: The smaller space one bit of information can occupy, the more data you can get into a device and the faster it can operateNon volatile memories based on silicon dots are revolutionizing the way we store and retrieve data. By utilizing tiny silicon dots to store information, these memories are able to pack more data into a smaller space, leading to faster and more efficient operation.
The key advantage of non volatile memories based on silicon dots is their ability to retain data even when the power is turned off. This means that important information is not lost during power outages or system failures, making them ideal for use in a wide range of electronic devices.
Additionally, the use of silicon dots allows for a higher density of data storage, meaning that more information can be stored in a smaller physical space. This results in faster data retrieval times and improved overall performance.
Overall, non volatile memories based on silicon dots offer a more efficient and reliable way to store data, making them an essential component in the technology of the future.
#volatile #memories #based #Silicon #dots #smaller #space #bit #information #occupy #data #device #faster #operate
Impact of geometry on charge trap non volatile memories
Price: $78.00
(as of Nov 29,2024 22:11:38 UTC – Details)
Publisher : LAP LAMBERT Academic Publishing (November 25, 2016)
Language : English
Paperback : 272 pages
ISBN-10 : 3659970360
ISBN-13 : 978-3659970368
Item Weight : 14.9 ounces
Dimensions : 5.91 x 0.62 x 8.66 inches
Geometry plays a crucial role in the design and performance of charge trap non-volatile memories (NVMs). These memories store data even when the power is turned off, making them essential components in various electronic devices.The geometric structure of charge trap NVMs directly affects their performance in terms of speed, endurance, and reliability. The geometry of the trap sites, the distance between them, and the overall layout of the memory cell all impact how efficiently charges can be stored and retrieved.
For example, a well-optimized geometry with closely spaced trap sites can enhance the speed of programming and erasing operations, leading to faster write and erase times. Additionally, a carefully designed geometry can improve the endurance of the memory cell by reducing the impact of charge trapping and detrapping processes, ultimately extending the lifespan of the device.
Furthermore, the geometry of charge trap NVMs can influence their reliability by minimizing interference between adjacent memory cells and reducing the likelihood of data corruption or loss. By carefully considering the layout and dimensions of the memory cell, designers can create a more robust and stable memory device.
In conclusion, the impact of geometry on charge trap non-volatile memories cannot be underestimated. By optimizing the geometric design of these memories, engineers can enhance their performance, durability, and reliability, ultimately leading to more efficient and dependable electronic devices.
#Impact #geometry #charge #trap #volatile #memories
Enhancing Endurance of Non Volatile Memory in Embedded Systems: Based on Optimized Machine Learning and Compression Techniques
Price: $74.00
(as of Nov 27,2024 20:14:42 UTC – Details)
Publisher : LAP LAMBERT Academic Publishing (June 14, 2024)
Language : English
Paperback : 136 pages
ISBN-10 : 620780483X
ISBN-13 : 978-6207804832
Item Weight : 7.4 ounces
Dimensions : 5.91 x 0.31 x 8.66 inches
In today’s fast-paced technological landscape, embedded systems play a crucial role in various industries such as automotive, healthcare, and consumer electronics. These systems rely on non-volatile memory (NVM) to store and retrieve data efficiently. However, the endurance of NVM can be a limiting factor in the overall performance and reliability of embedded systems.To address this challenge, researchers and engineers have been exploring ways to enhance the endurance of NVM through optimized machine learning and compression techniques. By leveraging the power of machine learning algorithms, data patterns and access frequencies can be analyzed to optimize the storage and retrieval processes, reducing the wear and tear on NVM cells.
Additionally, data compression techniques can be implemented to reduce the amount of data written to NVM, further extending its lifespan. By compressing data before it is stored and decompressing it when it is retrieved, the number of write operations can be minimized, ultimately improving the endurance of NVM.
In this post, we will delve into the latest advancements in enhancing the endurance of NVM in embedded systems through the integration of optimized machine learning and compression techniques. Stay tuned for insights on how these innovative approaches are revolutionizing the field of embedded systems and paving the way for more resilient and efficient technologies.
#Enhancing #Endurance #Volatile #Memory #Embedded #Systems #Based #Optimized #Machine #Learning #Compression #Techniques
MB85RC256V I2C Non Volatile FRAM Breakout Board Memory 32KB FRAM Breakout Board
Price: $9.79
(as of Nov 27,2024 09:39:41 UTC – Details)
Specification:
Addr: 1010+A2+A1+A0
Default: 0 x 50
VCC/Logic: 2.7-5.5V
Package List:
1 x FRAM Breakout Board
Package Dimensions : 2.76 x 1.97 x 0.39 inches; 0.21 ounces
Item model number : GYZOUKA7q6ehikpx0
Date First Available : November 1, 2024
Manufacturer : GYZOUKA
ASIN : B0DLP4JHCG[Fast Memory Access] : Similar to dram, the mb85rc256v provides 8 kb of memory with a clock up to 20 mhz, allowing for instantaneous read and write operations.
[Versatile Usage] : Suitable for a wide range of applications, this fram breakout board is a versatile and solution for your memory storage needs.
[Long-term Storage] : Each byte of data on the fram chip can retain memory for an impressive 95 years at room temperature, ensuring long-term data preservation.
[Efficient Data Logging] : Ideal for low power data loggers, this fram breakout board is for buffering data without a stable voltage source.
[Memory] : The mb85rc256v i2c non volatile fram breakout board offers exceptional durability, with the ability to be read/written 10 trillion times.
Introducing the MB85RC256V I2C Non Volatile FRAM Breakout Board Memory – 32KB FRAM Breakout Board!Looking for a reliable and high-performance memory solution for your next project? Look no further than the MB85RC256V I2C Non Volatile FRAM Breakout Board Memory. This breakout board features a 32KB FRAM (Ferroelectric Random Access Memory) that offers fast read/write speeds, low power consumption, and non-volatile storage capabilities.
With its I2C interface, this breakout board is easy to integrate into your existing projects and can be controlled using just a few simple commands. Whether you’re working on a data logging application, a sensor node, or any other project that requires reliable and efficient memory storage, the MB85RC256V I2C Non Volatile FRAM Breakout Board Memory is the perfect solution.
Don’t let memory limitations hold back your creativity – upgrade to the MB85RC256V I2C Non Volatile FRAM Breakout Board Memory today and unlock new possibilities for your projects!
#MB85RC256V #I2C #Volatile #FRAM #Breakout #Board #Memory #32KB #FRAM #Breakout #Board
MB85RC256V Memory 32KB I2C Non Volatile FRAM Breakout Board Professional
MB85RC256V Memory 32KB I2C Non Volatile FRAM Breakout Board Professional
Price : 9.73
Ends on : N/A
View on eBay
Introducing the MB85RC256V Memory 32KB I2C Non Volatile FRAM Breakout Board – the perfect solution for professionals looking to add reliable and high-performance memory storage to their projects.This breakout board features a 32KB capacity, making it ideal for storing critical data and settings. The I2C interface allows for easy integration with a wide range of microcontrollers, while the non-volatile FRAM technology ensures that your data is safe and secure even in the event of power loss.
Whether you’re working on IoT devices, data logging systems, or any other project that requires reliable memory storage, the MB85RC256V Memory 32KB I2C Non Volatile FRAM Breakout Board is the perfect choice. Upgrade your projects with this professional-grade memory solution today!
#MB85RC256V #Memory #32KB #I2C #Volatile #FRAM #Breakout #Board #Professional
ALLEN BRADLEY 1756-L55 /A 3.5 NON VOLATILE MEMORY EXP 1756-M24 PROCESSOR UNIT
ALLEN BRADLEY 1756-L55 /A 3.5 NON VOLATILE MEMORY EXP 1756-M24 PROCESSOR UNIT
Price :1442.50– 1,442.50
Ends on : N/A
View on eBay
Are you in need of a reliable and high-performance processor unit for your industrial automation system? Look no further than the Allen Bradley 1756-L55/A 3.5 Non Volatile Memory Exp 1756-M24 Processor Unit.This processor unit is designed to provide exceptional processing power and performance for your automation needs. With its 3.5 non-volatile memory capacity and 1756-M24 expansion capabilities, you can trust that this unit will meet the demands of even the most complex automation applications.
Whether you are looking to upgrade your current system or are starting from scratch, the Allen Bradley 1756-L55/A processor unit is the perfect choice. Its durable construction and reliable performance make it a top choice for industrial applications.
Don’t settle for anything less than the best when it comes to your automation needs. Choose the Allen Bradley 1756-L55/A 3.5 Non Volatile Memory Exp 1756-M24 Processor Unit and experience the difference in performance and reliability.
#ALLEN #BRADLEY #1756L55 #VOLATILE #MEMORY #EXP #1756M24 #PROCESSOR #UNIT
