The FZ3 Card is a deep learning accelerator card based on the Xilinx Zynq UltraScale+ ZU3EG MPSoC. It features a 1.2 GHz quad-core ARM processor, 600MHz dual-core real-time processor, 4GB RAM, 8GB flash storage, and supports PaddlePaddle deep learning. The FZ3 Kit package includes the card, power adapter, storage card, cables, and documentation to enable quick development of AI applications like cameras, robots, and intelligent vehicles.
The MYS-8MMX Single Board Computer has a compact design with only 95mm by 65mm form factor. It is powered by NXP’s first embedded multicore applications processor i.MX 8M Mini which features up to 1.8GHz quad-core ARM Cortex-A53 plus 400MHz Cortex-M4 processor. The tiny board takes full features of the processor and is equipped with 2GB DDR4, 8GB eMMC and 32MB QSPI Flash. It has explored rich peripheral interfaces through headers and connectors including two USB 2.0 Host, one USB OTG, one Gigabit Ethernet, TF card, M.2 interface, LVDS LCD interface, MIPI CSI interface, HDMI output, IO expansion interface and more others. The AP6256 WiFi/BT module on the board also allows wireless communications with other devices. It is capable of running Linux operating system based on the Yocto 3.0 or Ubuntu 18.04 .
this presentation is a great to deliver in classrooms, stage or also can be used to deliver lecture on "Evolution of processor".
it is also very helpful to learn about microprocessor, directly we can say its a self pack containing all about microprocessor.
this ppt contains evolution not only on the basis of generations but also on the basis of their invention.
must gothrough it
The MYS-8MMX Single Board Computer has a compact design with only 95mm by 65mm form factor. It is powered by NXP’s first embedded multicore applications processor i.MX 8M Mini which features up to 1.8GHz quad-core ARM Cortex-A53 plus 400MHz Cortex-M4 processor. The tiny board takes full features of the processor and is equipped with 2GB DDR4, 8GB eMMC and 32MB QSPI Flash. It has explored rich peripheral interfaces through headers and connectors including two USB 2.0 Host, one USB OTG, one Gigabit Ethernet, TF card, M.2 interface, LVDS LCD interface, MIPI CSI interface, HDMI output, IO expansion interface and more others. The AP6256 WiFi/BT module on the board also allows wireless communications with other devices. It is capable of running Linux operating system based on the Yocto 3.0 or Ubuntu 18.04 .
this presentation is a great to deliver in classrooms, stage or also can be used to deliver lecture on "Evolution of processor".
it is also very helpful to learn about microprocessor, directly we can say its a self pack containing all about microprocessor.
this ppt contains evolution not only on the basis of generations but also on the basis of their invention.
must gothrough it
Report on evolution of processor by sandesh agrawalSandesh Agrawal
a best place to the beginners n seekers n for those which are very keen to learn on the topic - processor & automation.
The brain or engine of the PC is the processor (sometimes called microprocessor), or central processing unit (CPU). The CPU performs the system’s calculating and processing. The processor is easily the most expensive single component in the system, costing up to four or more times greater than the motherboard it plugs into. Intel is generally credited with creating the first microprocessor in 1971 with the introduction of a chip called the 4004. Today Intel still has control over the processor market, at least for PC systems. This means that all PC-compatible systems use either Intel processors or Intel-compatible processors from a handful of competitors (such as AMD or Cyrix).
The MYD-YA15XC-T development board is using the MYC-YA15XC-T CPU Module as core controller board which is populated on a specially designed base board through 1.0 mm pitch 148-pin stamp-hole (Castellated-Hole) expansion interface. The MYD-YA15XC-T is a good reference design for using ST STM32MP1 Processors which features 650MHz Single or Dual Arm Cortex-A7 and 209MHz Cortex-M4 Cores. Typical applications are industrial control, consumer electronics, smart home, medical and more other energy-efficient applications which require rich performance and low power. More information can be found at:
http://www.myirtech.com/list.asp?id=659
Measuring only 39mm by 37mm, the MYC-YA15XC-T CPU Module is MYIR’s another System-on Module (SoM) based on ST STM32MP1 series processors after the first release of the MYC-YA157C CPU Module, The new MYC-Y157XC-T module has integrated the STM32MP151AAC3T processor by default and a dedicated Power Management IC STPMIC1 also from STMicroelectronics. It has onboard DDR3L, Nand Flash or eMMC and 32KB EEPROM. A number of peripherals and IO signals are brought out through 1.0 mm pitch 148-pin stamp-hole (Castellated-Hole) expansion interface to make the module an excellent embedded controller for applications like industrial control, consumer electronics, smart home, medical and etc. The MYC-YA15XC-T is running Linux with provided 5.4.31 kernel and many drivers in source code.
Intel Microprocessors- a Top down ApproachEditor IJCATR
IBM is the world's largest manufacturer of computer chips. Although it has been challenged in recent years by
newcomers AMD and Cyrix, Intel still Predominate the market for PC microprocessors. Nearly all PCs are based on Intel's x86
architecture. IBM (International Business Machines)IBM (International Business Machines) is by far the world's largest information
technology company in terms of Gross ($88 billion in 2000) and by most other measures, a position it has held for about the past
50 years. IBM products include hardware and software for a line of business servers, storage products, custom-designed microchips,
and application software. Increasingly, IBM derives revenue from a range of consulting and outsourcing services. In this paper we
will compare different technologies of computer system, its processor and chips
The MYC-CZU3EG CPU Module is a powerful MPSoC System-on-Module (SoM) based on Xilinx Zynq UltraScale+ ZU3EG which features a 1.2 GHz quad-core ARM Cortex-A53 64-bit application processor
Report on evolution of processor by sandesh agrawalSandesh Agrawal
a best place to the beginners n seekers n for those which are very keen to learn on the topic - processor & automation.
The brain or engine of the PC is the processor (sometimes called microprocessor), or central processing unit (CPU). The CPU performs the system’s calculating and processing. The processor is easily the most expensive single component in the system, costing up to four or more times greater than the motherboard it plugs into. Intel is generally credited with creating the first microprocessor in 1971 with the introduction of a chip called the 4004. Today Intel still has control over the processor market, at least for PC systems. This means that all PC-compatible systems use either Intel processors or Intel-compatible processors from a handful of competitors (such as AMD or Cyrix).
The MYD-YA15XC-T development board is using the MYC-YA15XC-T CPU Module as core controller board which is populated on a specially designed base board through 1.0 mm pitch 148-pin stamp-hole (Castellated-Hole) expansion interface. The MYD-YA15XC-T is a good reference design for using ST STM32MP1 Processors which features 650MHz Single or Dual Arm Cortex-A7 and 209MHz Cortex-M4 Cores. Typical applications are industrial control, consumer electronics, smart home, medical and more other energy-efficient applications which require rich performance and low power. More information can be found at:
http://www.myirtech.com/list.asp?id=659
Measuring only 39mm by 37mm, the MYC-YA15XC-T CPU Module is MYIR’s another System-on Module (SoM) based on ST STM32MP1 series processors after the first release of the MYC-YA157C CPU Module, The new MYC-Y157XC-T module has integrated the STM32MP151AAC3T processor by default and a dedicated Power Management IC STPMIC1 also from STMicroelectronics. It has onboard DDR3L, Nand Flash or eMMC and 32KB EEPROM. A number of peripherals and IO signals are brought out through 1.0 mm pitch 148-pin stamp-hole (Castellated-Hole) expansion interface to make the module an excellent embedded controller for applications like industrial control, consumer electronics, smart home, medical and etc. The MYC-YA15XC-T is running Linux with provided 5.4.31 kernel and many drivers in source code.
Intel Microprocessors- a Top down ApproachEditor IJCATR
IBM is the world's largest manufacturer of computer chips. Although it has been challenged in recent years by
newcomers AMD and Cyrix, Intel still Predominate the market for PC microprocessors. Nearly all PCs are based on Intel's x86
architecture. IBM (International Business Machines)IBM (International Business Machines) is by far the world's largest information
technology company in terms of Gross ($88 billion in 2000) and by most other measures, a position it has held for about the past
50 years. IBM products include hardware and software for a line of business servers, storage products, custom-designed microchips,
and application software. Increasingly, IBM derives revenue from a range of consulting and outsourcing services. In this paper we
will compare different technologies of computer system, its processor and chips
The MYC-CZU3EG CPU Module is a powerful MPSoC System-on-Module (SoM) based on Xilinx Zynq UltraScale+ ZU3EG which features a 1.2 GHz quad-core ARM Cortex-A53 64-bit application processor
MYS-6ULX Single Board Computer for Industry 4.0 and IoT ApplicationsLinda Zhang
The document introduced MYIR's i.MX 6UL / 6ULL based ARM Cortex-A7 Single Board Computer for Industry 4.0 and IoT applications which is ready to run Linux with high performance and ulta low cost.
MYC-YF13X CPU Module - STM32MP135 based SoMLinda Zhang
The MYC-YF13X CPU Module Overview gives introduction of the STM32MP135 processor based System-on-Module from MYIR, a Chinese company focused on providing SoM solutions for embedded appilcations. Measuring only 37mm by 39mm, the MYC-YF13X module has integrated the STM32MP135DAF7 processor, DDR3L, external memory and carried out a variety of peripheral and IO signals through the 1.0 mm pitch 148-pin Castellated-Hole expansion interface. It is capable of running Linux and provided with software resources including kernel and driver source code, together with detailed user manual and documentations to help customer start their development rapidly. It is particularly suitable for applications such as entry-level industrial human-machine interfaces (HMI) and embedded devices for energy and power management.
MYIR also provides the MYD-YF13X Development Board as a starter kit for evaluating the MYC-YF13X CPU Module. It has a versatile base board to facilitate the expansion from the MYC-YF13X through the 1.0 mm pitch 148-pin stamp-hole (Castellated-Hole) interface, a rich set of peripherals and interfaces have been brought out such as RS232, RS485, two USB 2.0 HOST and one USB 2.0 OTG, two Gigabit Ethernet, CAN, one Micro SD card slot, one USB based Mini-PCIe 4G Module interface with one SIM card holder, LCD interface, Camera interface, Audio input and output as well as two extension headers.
More information about the MYC-YF13X CPU Module can be found at:
https://www.myirtech.com/list.asp?id=726
Measuring 45mm by 82mm, the MYC-J1028X CPU Module is a high-performance embedded ARM SoM for industrial and automotive applications. It is based on NXP LS1028A SoC of the Layerscape family and features 1.5 GHz dual Arm Cortex-A72 cores, with integrated 3D GPU for HMI, and a time-sensitive networking (TSN) -enabled Ethernet switch and Ethernet controllers to support converged IT and OT networks. The MYC-J1028X has 2GB DDR4 and supports multiple external memory options including 8GB eMMC (default), QSPI NAND Flash (DNP) and XSPI NOR Flash (DNP). It has 32Kbit EEPROM and one temperature sensor on the rear of the board. A number of peripheral and IO signals are access through one 0.5mm pitch 314-pin MXM 3.0 gold-finger-edge-card connector. It is capable of supporting Ubuntu and Real-time Edge images based on Linux kernel.
The MYD-J1028X Development Board is using the MYC-J1028X as core controller board and has explored the features of the LS1028A processor to serve as an solid reference design for customer’s development. The base board has brought out rich peripherals through connectors and headers such as one USB3.0 Host, five Gigabit TSN Ethernet, one M.2 Key E based WiFi module interface, one USB 3.0 M.2 Key B based 5G Module interface, one M.2 Key B based SSD Module interface, one DP display port, one Audio output port, one Micro SD card slot as well as two SIM card slots and more others.
The Rico Board is an excellent high-performance Single Board Computer using the newest TI’s AM437x Sitara ARM Cortex-A9 based solution. It has 512MB DDR3, 4GB eMMC Flash, 16MB QSPI Flash and 32KB EEPROM on board, featuring various peripherals like Debug Serial, USB, Gigabit Ethernet, Dual-Camera, TF, HDMI, LCD and etc. It is preloaded with Linux and supplied with optional 7-inch LCD Module including capacitive touch screen. More information can be found at MYIR's website: http://www.myirtech.com/list.asp?id=510
MYD-Y6ULX Development Board for i.MX 6UL/6ULL ARM Cortex-A7 ProcessorsLinda Zhang
The MYD-Y6ULX development board is a complete evaluation platform for NXP’s i.MX 6UltraLite / 6ULL processor family, which can operate at 528 MHz and features the most efficient ARM Cortex-A7 core, providing various memory interfaces and enhancing the flexibility and convenience of the board to connect peripheral devices. The board is ready to run Linux and supports industrial operating temperature range from -40 to +85 Celsius. employs the MYC-Y6ULX CPU Module as the controller board by populating the CPU Module on its base board through 1.0mm pitch 140-pin stamp hole interface. The MYC-Y6ULX CPU Module is mounted with a shield cover and integrated with core components including i.MX 6UltraLite / 6ULL processor, 256MB DDR3, 256MB Nand Flash or optional 4GB eMMC and Ethernet PHY. The base board has extended rich peripherals through connectors and headers like Serial ports, USB, Ethernet, CAN, Micro SD card, WiFi module, LCD/Touch screen, Camera, Audio as well as a Mini PCIe interface for optional USB based 4G LTE module. It is a versatile platform and solid reference design delivered with necessary cable accessories and detailed documentations ideal for prototype and evaluation based on i.MX 6UL/6ULL solutions.
Webinar: NVIDIA JETSON – A Inteligência Artificial na palma de sua mãoEmbarcados
Objetivo do Webinar: Venha saber como a plataforma NVIDIA Jetson e suas ferramentas habilitam você a desenvolver e implantar robôs, drones, aplicativos de IVA e outras máquinas autônomas com tecnologia AI que pensam por conta própria.
Apoio: Arrow e NVIDIA.
Convidado: Marcel Saraiva
Gerente de Contas Enterprise da NVIDIA, executivo com 20 anos de expereincia no mercado de TI, teve na sua carreia passagens pela SGI (Silicon Graphics), Intel e Scansource. Engenheiro eletrico formado pela FEI, com pós-graduação em Marketing pela FAAP e MBA em Gestão Empresarial pela FGV.
Link para o Webinar: https://www.embarcados.com.br/webinars/nvidia-jetson-a-inteligencia-artificial-na-palma-de-sua-mao/
Jetson AGX Xavier and the New Era of Autonomous MachinesDustin Franklin
Deep-dive on NVIDIA Jetson AGX Xavier, designed to help you deploy advanced AI onboard robots, drones, and other autonomous machines. View the webinar here: https://bit.ly/2BWVWv1
Presentation for IoT workshop at Sinhagad University (Feb 4, 2016) - 2/2Bhavin Chandarana
This is the second part of the presentation used for the workshop I conducted at Sinhagad University on Thursday 4th Feb, 2016. A lot of the content has been taken from freely available existing sources and these slides are just for reference for those who attended the workshop
IEI is een van de grootste leveranciers van producten voor industriële computersystemen. IEI levert honderden verschillende boards, systemen en onderdelen voor uiteenlopende applicaties in de industriële automatisering, defensie, medisch, infotainment en mobiel gebruik. Vooruitstrevende oplossingen bezorgen u als klant een kortere ontwerpcyclus zodat u de voorsprong op de concurrent kunt behouden en zelfs vergroten.
MYC-Y6ULX CPU Module - NXP i.MX 6UL/6ULL System-on-ModuleLinda Zhang
This overview document gives a brief introduction of MYIR's MYC-Y6ULX CPU Module which is powered by NXP i.MX 6UltraLite / 6ULL processor based on the ARM Cortex-A7 architecture. It is ready to run Linux and delivers high performance with ultra-efficient power that targets Industry Control, Communications, HMI, Smart Healthcare and Internet of Things (IoT) applications. It carries out as many as peripheral signals and IOs through 1.0mm pitch 140-pin stamp hole expansion interface to allow customer’s extension for their next embedded design. The module can support industrial operating temperature range from -40 to +85 Celsius.
The Fujitsu STYLISTIC Q702 is the perfect choice for mobile professionals looking for high-performance
without compromising on versatility. With its attachable keyboard option, this lightweight hybrid
tablet PC enables easy content creation and consumption. Either use it as a tablet when traveling
or attach the keyboard and convert the STYLISTIC Q702 into a traditional notebook for additional
usability in the office. The 29.5 cm (11.6-inch) display with pen and finger input support offers you
excellent flexibility while optional 4G/LTE completes the picture of a professional tablet.
Thiết kế chắc chắn, đẳng cấp
Hiệu năng vượt trội, hoạt động êm và mạnh mẽ
Số lượng cổng kết nối nhiều, đa dạng
Trang bị tính năng bảo mật hiện đại
Dễ nâng cấp
Trang bị chuẩn kết nối wifi 6
Phù hợp với giới thiết kế đồ họa chuyên nghiệp, nhất là người làm thiết kế kiến trúc cần di chuyển nhiều
Nguồn: https://laptops.vn/san-pham/thinkpad-p1-gen-2/
Similar to FZ3 Card - Deep Learning Accelerator Card (20)
The MYD-YT507H Development Board consists of a compact CPU Module MYC-YT507H and a base board to provide a complete evaluation platform for ALLWINNER T507-H Processor which among Allwinner T5 series with a 1.5GHz quad-core Cortex-A53 CPU and a Mali-G31 MP2 GPU. The processor is AEC-Q100 certified and targets the new generation of automotive markets. Typical applications are power IoT, automotive electronics, commercial display, industrial control, medical devices, intelligent terminals and more others.
The MYD-YT507H has a base board which installed MYC-YT507H CPU Module through 1.0mm pitch 222-pin stamp-hole (Castellated-Hole) interface. The MYC-YT507H CPU Module is a highly-integrated SoM which combines the ALLWINNER T507-H processor, 1GB/2GB DDR4, 8GB eMMC, 32Kbit EEPROM and PMIC. The base board is explored with Serial ports, one Gigabit Ethernet and one 10/100M bps Ethernet, two USB 2.0 HOST and one USB 2.0 OTG, one TF card slot as well as a USB based 4G Mini PCIE interface. It has a DVP camera interface and a MIPI-CSI interface to allow connecting with camera modules. It also supports multi video output interfaces such as dual LVDS, HDMI and CVBS OUT, to achieve different display in dual screens.
The MYD-YT507H Development Board is delivered with one Quick Start Guide, one USB cable, one 12V/2A power adapter and one DC power jack adapter to provide user a complete platform for evaluating and prototyping based on T507 processor. MYIR also offers MY-CAM002U USB Camera Module, MY-CAM011B DVP Camera Module, MY-CAM003M MIPI Camera Module, MY-WIREDCOM RPI Module (RS232/RS485), MY-WF005S WiFi/BT Module and MY-LVDS070C LCD Module as options for the board which have greatly enhanced the functionality of the board.
The MYD-YT507H is running Linux OS. MYIR provides abundant software resources for Linux 4.9 based MYIR MEasy HMI V2.0 system with QT5.12.5, Ubuntu 18.04.5 system, including kernel, driver source codes and compilation tools to enable users to start their development rapidly and easily.
Measuring only 43mm by 45mm, the MYC-YT507H CPU Module is a compact System-on Module (SoM) based on Allwinner T507-H industrial processor which among Allwinner T5 series with a 1.5GHz quad-core Cortex-A53 CPU and a Mali-G31 MP2 GPU. The processor is AEC-Q100 certified and targets the new generation of automotive markets. Additionally, it has onboard 1GB/2GB LPDDR4, 8GB eMMC, 32Kbit EEPROM and Power management IC (PMIC). SMD packaging is adopted to save connector cost. A variety of peripheral and IO signals are accessible via the 1.0 mm pitch 222-pin stamp-hole (Castellated-Hole) expansion interface. With strong performance, extensive peripheral resources and low cost, the MYC-YT507H can be used in a wide range of applications such as power IOT, automotive electronics, commercial display, industrial control, medical devices, intelligent terminals, and more others.
The MYC-YT507H is running Linux 4.9 with ported Ubuntu 18.04.5 and MYIR MEasy HMI V2.0 system with QT5.12.5, supporting systems with XFCE graphics function. MYIR has provided the software development resources with kernel and drivers all in source code.
MYIR provides MYD-YT507H development board for evaluating the MYC-YT507H CPU Module. It takes full advantages of the Allwinner T5 MPU to explore a rich set of peripherals and interfaces to the base board including Serial ports, one Gigabit Ethernet and one 10/100M bps Ethernet, two USB 2.0 HOST and one USB 2.0 OTG, one TF card slot as well as a USB based 4G Mini PCIE interface. It has a DVP camera interface and a MIPI-CSI interface to allow connecting with camera modules. It also supports multi video output interfaces such as dual LVDS, HDMI and CVBS OUT, to achieve different display in dual screens.
The MYD-J1028X development board consists ofthe high-performance MYC-J1028X CPU Module and a base board to provide a complete evaluation platform for NXP LS1028A Processor which features dual Arm Cortex-A72 cores,with integrated 3D GPU for HMI, and a time-sensitive networking (TSN) -enabled Ethernet switch and Ethernet controllers to support converged IT and OT networks. Typical applications are industrial router, industrial control, edge computing, automotive electronics, industrial IoT and other scenes requiring high reliability, powerful communication and display capabilities.
The MYC-J1028X CPU Module is an ARM SoM with Layerscape LS1028A SoC, 2G DDR4, 8GB eMMC, 32Kbit EEPROM and a temperature sensor. It is connected to the base board of MYD-J1028X through one 0.5mm pitch 314-pin MXM 3.0 gold-finger-edge-card connector. The base board has brought out rich peripherals through connectors and headers such as 5G Module interface, one M.2 Key B based SSD Module interface,one DP display port, one Audio output port, one Micro SD card slot as well as two SIM card slots and more others.
he MYD-J1028X development board is delivered with one Quick Start Guide, one Type-C cable, one 12V/2A power adapter and one DC power jack adapter to provide user a complete platform for evaluating and prototyping based on LS1028A processor. MYIR also offers MY-CAM002U USB Camera Module and MY-WIREDCOM RPI Module (RS232/RS485/CAN) as options for the board.
The MYD-J1028X is capable of supporting Ubuntu and Real-time Edge images based on Linux kernel. Driver source code and compilation tools are provided to enable users to start their development rapidly and easily.
This book is written by Mr.Joseph Attard, a Senior lecturer II working at Malta College for Arts Science and Technology on the island of Malta. In this book, Joseph shared a lot of content on how to work with MYIR's Z-turn board, starting from simply creating a project in Vivado to flash an LED, continuing to Detecting Switch inputs, all the way to interfacing the Xilinx Zynq 7 System on Chip to multiple analogue sensors through multiple XADC channels. All the above-mentioned interfacing is done from both the ARM Cortex A9, commonly known as the Processing System and the Artix 7 FPGA, commonly known as Programmable Logic, both residing within the Zynq 7000 SoC.
Verification of EMC Compliance for MYC-Y6ULX CPU ModuleLinda Zhang
The file has presented the verification of EMC compliance for MYIR's MYC-Y6ULX CPU Module which is an system-on-module (SoM) powered by NXP i.MX 6UltraLite / 6ULL processor based on the ARM Cortex-A7 architecture. The module is ready to run Linux and can support industrial operating temperature range from -40 to +85 Celsius.
Development Board for NXP i.MX 8M Quad Application ProcessorsLinda Zhang
The overview file introduces a versatile platform MYD-JX8MX development board for evaluating the MYC-JX8MX CPU Module. It takes full features of the i.MX 8M processor and has brought out rich peripherals through connectors and headers such as 4 x USB 3.0 Host ports and 1 x USB 3.0 Host/Device port, Gigabit Ethernet, TF card slot, USB based Mini PCIe interface for 4G LTE Module, WiFi/BT, Audio In/Out, HDMI, 2 x MIPI-CSI, MIPI-DSI, 2 x LVDS display interfaces, PCIe 3.0 (x4) NVMe SSD Interface, etc. The board is ready to run Linux and can work in extended temperature ranging from -30°C to 80°C. It is delivered with necessary cable accessories for customers to easily start development as soon as getting it out-of-box. A MIPI Camera Module MY-CAM003 is provided as an option for the board.
High-performance ARM SoM Powered by NXP i.MX 8MLinda Zhang
The document file has introduced MYIR's high-performance ARM SoM MYC-JX8MX CPU Module, which is built around the NXP i.MX 8M Quad processor featuring 1.3GHz quad ARM Cortex-A53 cores and a real-time ARM Cortex-M4 co-processor. The module runs Linux and is capable of working in extended temperature ranging from -30°C to 80°C.
This technical paper has collected and summarized some frequently asked questions (FAQs) by MYIR's engineers on development based on NXP's i.MX 6UL/6ULL ARM Cortex-A7 processors. Hope it can help developers during their work.
The catalogue includes helpful information on different ARM based products available from MYIR Tech Limited such as development boards, single board computers, CPU modules and so on.
The MYC-C7Z015 CPU Module is an SOM (System on Module) board based on Xilinx XC7Z015 (Z-7015) All Programmable System-on-Chip (SoC) which is among the Xilinx Zynq-7000 family, featuring integrated dual-core ARM Cortex-A9 processor with Xilinx 7-series FPGA logic, four 6.25Gbps SerDes transceivers and one PCIe Gen2 x 4 integrated block. The MYC-C7Z015 module has 1GB DDR3 SDRAM, 4GB eMMC, 32MB quad SPI Flash, a Gigabit Ethernet PHY, a USB PHY and external watchdog on board. It provides a large number of I/O signals for ARM peripherals and FPGA I/Os through two 0.8mm pitch 140-pin board-to-board connectors, which is ideal for your next embedded design.
The MYC-C7Z015 CPU Module is compatible with MYIR’s MYC-C7Z010/20 CPU Modules and they can share the same base board which is designed by MYIR for evaluation or prototype purpose. The MYD-C7Z015 development board takes full features of the Zynq-7015 SoC. It has full features of the MYD-C7Z010/20 development board, additionally, it has one PCIe interface and one SFP transceiver module interface.
The MYC-C7Z015 CPU Module is ready to run Linux 3.15.0. It can be used in a variety of commercial, medical, automation, industrial, and military embedded applications.
Atmel SAMA5D4 Development Board and CPU ModuleLinda Zhang
This document introduces MYIR's MYD-JA5D4X development board and MYC-JA5D4X CPU Module which are based on Atmel’s ARM Cortex-A5 based SAMA5D42 orSAMA5D44 ARM Cortex-A5 processor, capable of running Linux and support extended operation temperature.
Atmel SAMA5D3 Development Boards and CPU ModulesLinda Zhang
This documentation introduces MYIR's development boards and CPU Modules based on Atmel's SAMA5D3 ARM Cortex-A5 processors, capable of running Linux and Android and can work in harsh environment supporting -40 to +85 Celsius extended temperature operation for industrial embedded applications.
The MYD-C7Z010/20 development board is built around the MYC-C7Z010/20 CPU Module which is a compact Linux-ready ZYNQ-based SOM (System on Module). The MYC-C7Z010/20 combines the Xilinx XC7Z010 (ZYNQ-7010) or XC7Z020 (ZYNQ-7020) SoC device, 1GB DDR3 SDRAM, 4GB eMMC, 32MB quad SPI Flash, a Gigabit Ethernet PHY, a USB PHY and external watchdog. It is connected to the MYD-C7Z010/20 base board through two 0.8mm pitch 140-pin board-to-board connectors. The MYD-C7Z010/20 development board is delivered with necessary cable accessories and MYIR offers optional 4.3-inch and 7-inch LCD Module. The board is preloaded with Linux. It is a high-performance and low-cost development platform for evaluation and prototype based on Xilinx Zynq-7000 All Programmable SoC family.
Student information management system project report ii.pdfKamal Acharya
Our project explains about the student management. This project mainly explains the various actions related to student details. This project shows some ease in adding, editing and deleting the student details. It also provides a less time consuming process for viewing, adding, editing and deleting the marks of the students.
Water scarcity is the lack of fresh water resources to meet the standard water demand. There are two type of water scarcity. One is physical. The other is economic water scarcity.
Sachpazis:Terzaghi Bearing Capacity Estimation in simple terms with Calculati...Dr.Costas Sachpazis
Terzaghi's soil bearing capacity theory, developed by Karl Terzaghi, is a fundamental principle in geotechnical engineering used to determine the bearing capacity of shallow foundations. This theory provides a method to calculate the ultimate bearing capacity of soil, which is the maximum load per unit area that the soil can support without undergoing shear failure. The Calculation HTML Code included.
Overview of the fundamental roles in Hydropower generation and the components involved in wider Electrical Engineering.
This paper presents the design and construction of hydroelectric dams from the hydrologist’s survey of the valley before construction, all aspects and involved disciplines, fluid dynamics, structural engineering, generation and mains frequency regulation to the very transmission of power through the network in the United Kingdom.
Author: Robbie Edward Sayers
Collaborators and co editors: Charlie Sims and Connor Healey.
(C) 2024 Robbie E. Sayers
About
Indigenized remote control interface card suitable for MAFI system CCR equipment. Compatible for IDM8000 CCR. Backplane mounted serial and TCP/Ethernet communication module for CCR remote access. IDM 8000 CCR remote control on serial and TCP protocol.
• Remote control: Parallel or serial interface.
• Compatible with MAFI CCR system.
• Compatible with IDM8000 CCR.
• Compatible with Backplane mount serial communication.
• Compatible with commercial and Defence aviation CCR system.
• Remote control system for accessing CCR and allied system over serial or TCP.
• Indigenized local Support/presence in India.
• Easy in configuration using DIP switches.
Technical Specifications
Indigenized remote control interface card suitable for MAFI system CCR equipment. Compatible for IDM8000 CCR. Backplane mounted serial and TCP/Ethernet communication module for CCR remote access. IDM 8000 CCR remote control on serial and TCP protocol.
Key Features
Indigenized remote control interface card suitable for MAFI system CCR equipment. Compatible for IDM8000 CCR. Backplane mounted serial and TCP/Ethernet communication module for CCR remote access. IDM 8000 CCR remote control on serial and TCP protocol.
• Remote control: Parallel or serial interface
• Compatible with MAFI CCR system
• Copatiable with IDM8000 CCR
• Compatible with Backplane mount serial communication.
• Compatible with commercial and Defence aviation CCR system.
• Remote control system for accessing CCR and allied system over serial or TCP.
• Indigenized local Support/presence in India.
Application
• Remote control: Parallel or serial interface.
• Compatible with MAFI CCR system.
• Compatible with IDM8000 CCR.
• Compatible with Backplane mount serial communication.
• Compatible with commercial and Defence aviation CCR system.
• Remote control system for accessing CCR and allied system over serial or TCP.
• Indigenized local Support/presence in India.
• Easy in configuration using DIP switches.
Hierarchical Digital Twin of a Naval Power SystemKerry Sado
A hierarchical digital twin of a Naval DC power system has been developed and experimentally verified. Similar to other state-of-the-art digital twins, this technology creates a digital replica of the physical system executed in real-time or faster, which can modify hardware controls. However, its advantage stems from distributing computational efforts by utilizing a hierarchical structure composed of lower-level digital twin blocks and a higher-level system digital twin. Each digital twin block is associated with a physical subsystem of the hardware and communicates with a singular system digital twin, which creates a system-level response. By extracting information from each level of the hierarchy, power system controls of the hardware were reconfigured autonomously. This hierarchical digital twin development offers several advantages over other digital twins, particularly in the field of naval power systems. The hierarchical structure allows for greater computational efficiency and scalability while the ability to autonomously reconfigure hardware controls offers increased flexibility and responsiveness. The hierarchical decomposition and models utilized were well aligned with the physical twin, as indicated by the maximum deviations between the developed digital twin hierarchy and the hardware.
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FZ3 Card – Deep Learning Accelerator Card
➢ Xilinx Zynq UltraScale+ ZU3EG MPSoC based on 1.2 GHz Quad Arm Cortex-A53 and 600MHz Dual Cortex-M4 Cores
➢ 4GB DDR4 SDRAM (64-bit, 2400MHz)
➢ 8GB eMMC Flash, 32MB QSPI Flash, 32KB EEPROM
➢ USB 2.0, USB 3.0, Gigabit Ethernet, TF, DisplayPort (DP), PCIe, MIPI-CSI, BT1120, USB-UART, JTAG…
➢ Computing Power up to 1.2TOPS, MobileNet up to 100FPS
➢ Ready-to-Run PetaLinux
➢ Supports Baidu’s PaddlePaddle Deep Learning AI Framework
➢
Figure 1-1 FZ3 Card
The FZ3 Card is a powerful deep learning accelerator card based on Xilinx Zynq UltraScale+ ZU3EG MPSoC
which features a 1.2 GHz quad-core ARM Cortex-A53 64-bit application processor, a 600MHz dual-core real-
time ARM Cortex-R5 processor, a Mali400 embedded GPU and rich FPGA fabric. Besides, it integrates 4GB
DDR4, 8GB eMMC, 32MB QSPI Flash and 32KB EEPROM as well as many peripherals including USB 2.0, USB
3.0, Gigabit Ethernet, TF, DisplayPort (DP), PCIe interface, MIPI-CSI, BT1120 camera, USB-UART, JTAG, IO
expansion interfaces, etc. The rich resources enable users to integrate intelligent hardware easily.
The FZ3 Card is able to run PetaLinux and supports PaddlePaddle deep learning AI framework which is fully
compatible to use Baidu Brain’s AI development tools like EasyDL, AI Studio and EasyEdge to enable
developers and engineers to quickly leverage Baidu-proven technology or deploy self-defined models, enabling
faster deployment. Typical applications are AI camera, AI computing device, robotics, intelligent car, intelligent
electronic scale, patrol UAV and other embedded intelligent applications.
MYIR provides FZ3 Kit which contains the FZ3 Card with installed radiator and some necessary accessories
including one power adaptor, one 16GB TF card, one mini USB cable and one mini DP to HDMI cable. It helps users
start their development rapidly when getting the kit out-of-box right away.
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Hardware Specification
Zynq® UltraScale+™ MPSoC devices provide 64-bit processor scalability while combining real-time control with
soft and hard engines for graphics, video, waveform, and packet processing. Built on a common real-time
processor and programmable logic equipped platform, three distinct variants include dual application processor
(CG) devices, quad application processor and GPU (EG) devices, and video codec (EV) devices.
Figure 1-5 Zynq UltraScale+ MPSoCs
The Zynq UltraScale+ family provides footprint compatibility to enable users to migrate designs from one device
to another. Any two packages with the same footprint identifier code (last letter and number sequence) are
footprint compatible. MYIR is using the XCZU3EG-1SFVC784I MPSoC for FZ3 CARD by default, the C784 package
covers the widest footprint compatibilities that enable users to select devices among CG, EG and EV.
Figure 1-6 Zynq® UltraScale+™ MPSoC Device Migration Table
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The main features for the XCZU2CG, XCZU3CG, XCZU3EG, XCZU4EV and XCZU5EV MPSoC devices are summarized
as below.
Device XCZU2CG XCZU3CG XCZU3EG XCZU4EV XCZU5EV
Logic cells (k) 103 154 154 192 256
CLB Flip-Flops (K) 94 141 141 176 234
CLB LUTs (K) 47 71 71 88 117
Block RAM (Mb) 5.3 7.6 7.6 4.5 5.1
UltraRAM (Mb) - - - 13.5 18.0
DSP Slices 240 360 360 728 1,248
GTX transceivers PS-GTR4x
(6Gb/s)
PS-GTR4x
(6Gb/s)
PS-GTR4x
(6Gb/s)
PS-GTR4x (6Gb/s),
GTH4x (16.3Gb/s)
PS-GTR4x (6Gb/s),
GTH4x (16.3Gb/s)
Processor Units
Application Processor Unit Dual-core ARM®
Cortex™-A53 MPCore™
up to 1.3GHz
Quad-core ARM® Cortex™-A53 MPCore™ up to
1.5GHz
Memory w/ECC L1 Cache 32KB I / D per core, L2 Cache 1MB, on-chip Memory 256KB
Real-Time Processor Unit Dual-core ARM Cortex-R5 MPCore™ up to 600MHz
Memory w/ECC L1 Cache 32KB I / D per core, Tightly Coupled Memory 128KB per core
Graphics Processing Unit - - Mali™-400 MP2 up to 667MHz
Video Codec - - - H.264 / H.265
Memory L2 Cache 64KB
External Memory, Connectivity, Integrated Block Functionality
Dynamic Memory Interface x32/x64: DDR4, LPDDR4, DDR3, DDR3L, LPDDR3 with ECC
Static Memory Interfaces NAND, 2x Quad-SPI
High-Speed Connectivity PCIe® Gen2 x4, 2x USB3.0, SATA 3.1, DisplayPort, 4x Tri-mode Gigabit Ethernet
General Connectivity 2 x USB 2.0, 2 x SD/SDIO, 2 x UART, 2 x CAN 2.0B, 2 x I2C, 2 x SPI, 4 x 32b GPIO
Power Management Full / Low / PL / Battery Power Domains
Security RSA, AES, and SHA
AMS - System Monitor 10-bit, 1MSPS – Temperature and Voltage Monitor
Table 1-1 MPSoC device selection guide
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The FZ3 Deep Learning Accelerator Card takes full advantages of the Xilinx Zynq UltraScale+ ZU3EG MPSoC. The
main features are listed in below table.
Item Features
SoC
Xilinx Zynq UltraScale+ XCZU3EG-1SFVC784I (ZU3EG, 784 Pin Package) MPSoC
- 1.2 GHz 64 bit Quad-core ARM® Cortex™-A53
- 600MHz Dual-core ARM® Cortex™-R5 processor
- ARM Mali™-400MP Graphics Processor
- 16nm FinFET+ FPGA fabric
Memory 4GB DDR4 SDRAM (64bit, 2400MHz)
Storage
8GB eMMC
32MB QSPI Flash
32KB EEPROM
TF card interface
Communications
1 x PCIe 2.1 interface (1-lane)
1 x 10/100/1000Mbps Ethernet
1 x USB 3.0 Host, 1 x USB 2.0 Host
1 x USB-UART debug interface
Display 1 x Mini DisplayPort (DP), 4K/30fps, 2-lane
Camera 1 x MIPI-CSI, FPC_25PIN 4-lane
1 x BT1120, FPC_32PIN 16-bit
User I/O
Brought out via two 2.54mm pitch 2x20-pin IO Expansion Interfaces
2 x USB2.0 Host, 1 x CAN, 1 x RS485, 4 x PS_MIO, PL_IO (12 pairs x HD_IO, 8 pairs x HP_IO)
Dimensions 100mm x 70mm (12-layer PCB design)
Power supply DC 12V/2A
Working Temp. -45~85 Celsius
Others
1 x 2.54mm pitch 6-pin JTAG interface
2 x Buttons (1x FPGA Reset, 1 x System Reset)
5 x LEDs (1 x Power LED, Status_LED: 2 x RED, 2 x Green)
Software Supports PetaLinux, Provided with PaddlePaddle deep learning AI framework
Target Applications
Evaluation and Prototyping for XCZU3EG Zynq UltraScale+ MPSoC
AI Camera
AI Computing Box
AI Robot
Smart car
Intelligent electronic scale
Patrol UAV
Table 1-2 Features of FZ3 Card
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Software Features
The FZ3 Card is able to run PetaLinux 2019.1 and supports PaddlePaddle deep learning AI framework which
is fully compatible to use Baidu Brain’s AI development tools like EasyDL, AI Studio and EasyEdge to enable
developers and engineers to quickly leverage Baidu-proven technology or deploy self-defined models, enabling
faster deployment.
Figure 1-7 Baidu Brain’s AI Development Tools
Figure 1-8 Software Architecture of FZ3 Card
7. 7 / 7
Dimension Chart
Figure 1-9 Dimension Chart of FZ3 Card
Order Information
Item Packing List
FZ3 Card
(Part No.: MYS-ZU3EG-8E4D-EDGE)
➢ FZ3 Deep Learning Accelerator Card
(without any accessories, only production recommended)
FZ3 Kit
(Part No.: MYS-ZU3EG-8E4D-EDGE-K2)
➢ One FZ3 Card (Installed with active heatsink)
➢ One 12V/2A Power Adapter
➢ One Mini USB Cable
➢ One 16GB TF Card
➢ One Mini DP to HDMI Cable
Note: Please contact MYIR to get development resources (including documentations and software
BSP) download link after placing your order.
MYIR Tech Limited
Room 04, 6th Floor, Building No.2, Fada Road, Yunli Smart Park, Bantian,
Longgang District, Shenzhen, Guangdong, China 518129
E-mail: sales@myirtech.com
Phone: +86-755-22984836
Fax: +86-755-25532724
Website: http://www.myirtech.com