Share
P1023NSE5BFB
Manufacturer No:
P1023NSE5BFB
Manufacturer:
Description:
IC MPU QORIQ P1 400MHZ 457TEPBGA
Datasheet:
Delivery:
Payment:
In Stock : 0
Please send RFQ , we will respond immediately.
P1023NSE5BFB Specifications
-
TypeParameter
-
Supplier Device Package457-TEPBGA-1 (19x19)
-
Package / Case457-FBGA
-
Mounting TypeSurface Mount
-
Security FeaturesCryptography, Random Number Generator
-
Operating Temperature0°C ~ 105°C (TA)
-
Voltage - I/O-
-
USBUSB 2.0 + PHY (1)
-
SATA-
-
Ethernet10/100/1000Mbps (2)
-
Display & Interface Controllers-
-
Graphics AccelerationNo
-
RAM ControllersDDR3, DDR3L
-
Co-Processors/DSPSecurity; SEC 4.2
-
Speed400MHz
-
Number of Cores/Bus Width2 Core, 32-Bit
-
Core ProcessorPowerPC e500v2
-
PackagingTray
-
Product StatusObsolete
-
SeriesQorIQ P1
The M2S010T-1VFG256I integrated circuit chip, also known as a field-programmable gate array (FPGA), is equipped with 10,000 logic cells and various built-in features. Here are some advantages and application scenarios of this chip:Advantages: 1. Versatility: FPGAs can be reprogrammed and reconfigured even after manufacturing, allowing users to implement various functionalities and adapt to changing requirements. 2. High-performance: The M2S010T-1VFG256I chip offers reasonably large logic capacity, enabling users to implement complex digital circuit designs. 3. Customization: Users can define custom logic functions and create dedicated hardware tailored to their specific application needs. 4. Parallel processing: FPGAs are capable of performing multiple tasks simultaneously due to their inherently parallel architecture, resulting in improved performance for certain applications. 5. Reduced development time: FPGA-based designs require shorter development cycles compared to developing application-specific integrated circuits (ASICs) since FPGAs eliminate the need for mask fabrication.Application scenarios: 1. Prototyping: FPGAs are commonly used in early stages of product development, allowing engineers to quickly validate and test their designs before committing to ASICs. 2. Digital signal processing (DSP): FPGA chips are extensively utilized in applications requiring real-time processing of digital signals, such as image and speech recognition, video processing, and software-defined radios. 3. Industrial automation: FPGAs find applications in industrial control systems, motor control, robotics, and factory automation, where real-time performance and flexibility are crucial. 4. Aerospace and defense: FPGAs are deployed in avionics, radar and communication systems, where they provide the capability to handle complex calculations, data acquisition, and signal processing. 5. Internet of Things (IoT): With their ability to handle diverse sensor inputs and interface with different communication protocols, FPGAs are suitable for IoT applications such as sensor networks, smart homes, and industrial IoT solutions. 6. Cryptography and security: FPGAs are often utilized in encryption, decryption, and other security-related tasks due to their parallel processing capabilities and the ability to implement custom algorithms. 7. High-frequency trading: FPGAs are used in financial trading systems to perform high-speed algorithmic computations, providing an advantage in executing trades quickly.These are just a few examples of the advantages and application scenarios for the M2S010T-1VFG256I FPGA chip. The potential applications of FPGAs are vast and can be tailored to a wide range of industries and requirements.
