CPU: Exynos 1.7 GHz up to 2 GHz Dual-core ARM Cortex-A15 (also found on the Nexus 10)

Exynos 5250 is a system-on-a-chip (SoC) based on the 32-bit RISC processor.
Designed with the 32 nm low power process, features of Exynos 5250 include:
- Dual core CPU
- Highest memory bandwidth
- WQXGA display (up to 2560×1440)
- 1080p 60 frame video decoding and encoding hardware
- 3D graphics hardware
- Image signal processor
- High-speed interfaces such as eMMC4., SATA 3.0 and USB 3.0

Exynos 5250 uses the Cortex-A15 dual core, which is 40 % DMIPS higher than Cortex-A9 core and its speed is 1.7 GHz up to 2 GHz. It provides 12.8 GB/s memory bandwidth for heavy traffic operations such as 1080p video en/decoding, 3D graphics display and high resolution image signal processing with WQXGA display. The application processor supports dynamic virtual address mapping, which helps software engineers to fully utilize the memory resources with ease.

Exynos 5250 provides the best 3D graphics performance with wide range of APIs, such as OpenGL ES1.1, 2.0.
You can use Exynos 5250′s 3D cores as GPGPUs supported by OpenCL full profile. Superior 3D performance fully supports WQXGA display. Exynos 5250 supports not only low power eDP but also Panel-Self-Refresh (PSR) to make a low power system. The native dual display, in particular, supports WQXGA resolution of a main LCD display and 1080p 60 frame HDTV display throughout HDMI, simultaneously. Separate post processing pipeline enables Exynos 5250 to make a real display scenario.

Exynos 5250 has integrated image signal processor (ISP). This ISP supports not only 8 mega pixel with 30 frames per second throughput but also has special functionalities such as 3-dimensional noise reduction (3DNR), video digital image stabilization (VDIS), and optical distortion compensation (ODC). The ISP helps to achieve zeroshutter lag of camera shooting.

Exynos 5250 also integrates these IPs:
- DDR3/LPDDR3 interfaces
- Image signal processor (ISP)
- Eight channels of I2C for a variety of sensors
- Variety of USB derivatives (USB Host or Device 3.0,USB Host or Device 2.0)
- HSIC interfaces with PHY transceivers to connect with 802.11n, Ethernet, HSPA+, and 4G LTE modem
- C2C for modem sharing DRAM
The application processor also supports eMMC 4.5 interfaces and EF-NAND3.0 to increase the file system performance.

The key features of Exynos 5250 include:
- Cortex-A15 dual core subsystem with 64/128-bit SIMD NEON
- 32 KB (Instruction)/32 KB (Data) L1 Cache and 1 MB L2 Cache
- Core frequency of 1.7 GHz at overdrive/2.0 GHz by binning
- 128-bit Multi-layered bus architecture
- Internal ROM and RAM for secure booting, security, and general purposes
- Memory Subsystem:
- Two ports 32-bit 800 MHz LPDDR3/DDR3 Interfaces
- Or two ports 32-bit 533 MHz LPDDR2 Interfaces
- Eight-bit ITU 601 camera interface
- Multi-format Video Hardware Codec: 1080p 60fps (capable of decoding and encoding MPEG-4/H.263/H.264 and decoding only MPEG-2/VC1/VP8)
- 3D and 2D graphics hardware that supports OpenGL ES 1.1/2.0, OpenVG 1.1, and OpenCL 1.1 full profile
- Image Signal Processor that supports BayerRGB up to 14-bit input with 14.6MP 15fps, 8MP 30fps through MIPI CSI2 & YUV 8-bit interfaces and special functionalities such as 3-dimensional noise reduction (3DNR), video digital image stabilization (VDIS), and optical distortion compensation (ODC)
- JPEG Hardware Codec
- LCD single display that supports max WQXGA(eDP)/ SXGA(MIPI DSI), 24 bpp RGB, YUV formats through low power eDP and MIPI DSI
- Native dual display that supports WQXGA single LCD display and 1080p HDMI simultaneously
- HDMI 1.4 interfaces with on-chip PHY
- One port YUV 8-bit interfaces for camera input
- Two ports (4-lanes) MIPI CSI2 interfaces
- One port (4-lanes) low power eDP
- One port (4-lanes) MIPI DSI
- USB 3.0 device or Host 1-channel that supports SS (5 Gbps) with on-chip PHY
- USB 2.0 Host or Device 1-channel that supports LS/FS/HS (1.5 Mbps/12 Mbps/480 Mbps) with on-chip PHY
- USB HSIC 2-channel that supports 480 Mbps with on-chip PHY
- SATA 1.0/2.0/3.0 interface
- One channel eMMC 4.5
- One channel SDIO 3.0
- Two channel SD 2.0
- Two channel EF-NAND3.0 interface
- Four channel high-speed UART (up to 3 Mbps data rate for Bluetooth 2.1 EDR and IrDA 1.0 SIR)
- Three channel high-speed SPI
- One channel AC-97, two channel PCM, and three channel 24-bit I2S audio interface that supports 5.1 channel audio
- One channel S/PDIF interface support for digital audio
- Four channel I2C interface support (up to 400 kbps) for PMIC, HDMI, and general-purpose multi-masters
- Four channel HS-I2C (up to 3.1 Mbps)
- Samsung Reconfiguration Processor supports low power audio play
- Cortex-A5 low power co-processor
- MIPI HSI version 1.0 that supports 200 Mbps full-duplex
- C2C that supports through path between DRAM and MODEM
- Security subsystem that supports hardware crypto accelerators, ARM TrustZone, and TZASC
- 32-channel DMA controllers
- Configurable GPIOs
- Real-time clock, PLLs, timer with PWM, multi-core timer, and watchdog timer

GPU: ARM Mali-T604 Quad Core @ 533 MHz (72.488 GFLOPS)

This fourth-generation of Mali embedded graphics IP, designed to meet the needs of General Purpose computing on GPU (GPGPU), extends API support to include full profile as well as embedded Khronos™ OpenCL™ and Microsoft® DirectX®.

Designed for Visual Computing and using innovative tri-pipe architecture, the ARM® Mali™-T604 GPU Compute solution builds upon a track record for high-quality scalable multicore solutions for 2D and 3D graphics. Key APIs supported include OpenVG™ 1.1, OpenGL® ES 1.1, OpenGL ES 2.0, OpenGL ES 3.0*, DirectX® 11 and OpenCL™ 1.1.
The Mali-T604 is the first GPU based on the Midgard architecture and offers scalability from one to four cores. It is a complete embedded graphics and GPU Compute acceleration platform and enables the development of advanced user interfaces, gaming capabilities and GPU Compute applications for a wide range of tomorrow’s consumer devices, from mobile phones to smartbooks, from HDTV to portable gaming and beyond.

Mali-T604 pipelines provide true IEEE double-precision floating-point math in hardware for Full Profile, as well as Embedded Profile, OpenCL support. Production-quality software support , via a single driver stack for all multicore configurations, provides simplified application porting, system integration and maintenance. Multicore scheduling and performance scaling is fully handled within the graphics system, with no special considerations required from the application developer.

The Job Manager within Mali-T600 Series GPUs offloads task management from the CPU to the GPU and enables seamless load balancing across active shader cores. Through ARM coherency and interconnect technology, compute tasks can conveniently span the CPU and GPU as well as other available compute resources, accessing data more efficiently during shared processing in a heterogeneous system.

I/O: USB3, SATA3, SDXC, HDMI input/output, Display Port, SPDIF, Line IN/OUT

WiZARM provides the following I/O:
1x SATA3 Connector Ready
1x Micro SD SDXC up to 64GB
3x USB 3.0 Host (Type A)
2x USB HHD power (powered USB port)
1x USB 2.0 Device (Type B)
1x HDMI rev1.4 Input (Type A)
1x HDMI rev1.4 Output (Type A)
1x Display Port Output
1x SP/DIF Output
1x Line Output 3.5mm
1x Line Input (Mic) 3.5mm
1x DC Input (19V 3.5A)

WIZARM got it ALL!

  • Exynos5 Dual Cortex A15 up to 2GHz
  • 720p/1080p/1440p
  • 2GB DDR3 RAM
  • 16GB eMMC 4.5
  • 533 MHz Quad Core GPU
  • Micro SDHC/SDXC Slot (up to 64GB)
  • Infra Red
  • HDMI 1.4 Input
  • HDMI 1.4 Output
  • Analog Sound Output
  • Optical SPDIF Sound Output
  • Microphone Input
  • Display Port Output
  • FM Radio
  • SATA 3.0 connector
  • USB 3.0 ports (x3)
  • USB 2.0 port
  • Dual Band WIFI 802.11 a/b/g/n
  • RJ45 Gigabit Ethernet
  • Bluetooth 4.0

Some Included Tech


WIZARM Weapon of Mass Entertainment
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