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TDA4VPE-Q1

現行

適用於視覺感知和分析、具有四 Arm® Cortex®-A72、16 TOPS AI、C7xDSP 和 GPU 的 SoC

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TDA4VPE-Q1

現行
產品規格表 立即訂購

產品詳細資料

CPU 4 Arm Cortex-A72 Frequency (MHz) 2000 Coprocessors 8 Arm Cortex-R5F Graphics acceleration 1 3D Display type 1 EDP, 2 DSI, MIPI DPI Protocols Ethernet Number of Ethernet ports 4 PCIe 1 PCIe Gen 3 Hardware accelerators Deep learning accelerator, Depth and motion processing accelerator, Video decode accelerator, Video encode accelerator, Vision processing accelerator Features Vision Analytics Operating system FreeRTOS, INTEGRITY, Linux, QNX, SafeRTOS, VxWorks, u-velOSity Security Cryptography, Debug security, Device Identity, Isolation firewalls, Secure boot, Secure storage & programming, Software IP protection, Trusted execution environment Rating Automotive Power supply solution TPS6594-Q1 Operating temperature range (°C) -40 to 125
CPU 4 Arm Cortex-A72 Frequency (MHz) 2000 Coprocessors 8 Arm Cortex-R5F Graphics acceleration 1 3D Display type 1 EDP, 2 DSI, MIPI DPI Protocols Ethernet Number of Ethernet ports 4 PCIe 1 PCIe Gen 3 Hardware accelerators Deep learning accelerator, Depth and motion processing accelerator, Video decode accelerator, Video encode accelerator, Vision processing accelerator Features Vision Analytics Operating system FreeRTOS, INTEGRITY, Linux, QNX, SafeRTOS, VxWorks, u-velOSity Security Cryptography, Debug security, Device Identity, Isolation firewalls, Secure boot, Secure storage & programming, Software IP protection, Trusted execution environment Rating Automotive Power supply solution TPS6594-Q1 Operating temperature range (°C) -40 to 125
FCBGA (AND) 1063 729 mm² 27 x 27

Processor cores:

  • Up to Three C7x floating point, vector DSP, up to 1.0GHz, 240GFLOPS, 768GOPS
  • Up to Two Deep-learning matrix multiply accelerator (MMAv2), up to 16TOPS (8b) at 1.0GHz
  • Up to Two Vision Processing Accelerators (VPAC) with Image Signal Processor (ISP) and multiple vision assist accelerators
  • Depth and Motion Processing Accelerators (DMPAC)
  • Four Arm Cortex-A72 microprocessor subsystem at up to 2.0GHz
    • 2MB shared L2 cache per quad-core Cortex-A72 cluster
    • 32KB L1 DCache and 48KB L1 ICache per Cortex-A72 core
  • Eight Arm Cortex-R5F MCUs at up to 1.0GHz
    • 16K I-Cache, 16K D-Cache, 64K L2 TCM
    • Two Arm Cortex-R5F MCUs in isolated MCU subsystem
    • Six Arm Cortex-R5F MCUs in general compute partition
  • GPU IMG BXS-4-64, 256kB Cache, up to 800MHz, 50GFLOPS, 4GTexels/s (TDA4VPE)
  • Custom-designed interconnect fabric supporting near max processing entitlement

    Memory subsystem:

  • Up to 8MB of on-chip L3 RAM with ECC and coherency
    • ECC error protection
    • Shared coherent cache
    • Supports internal DMA engine
  • Up to Two External Memory Interface (EMIF) modules with ECC
    • Supports LPDDR4 memory types
    • Supports speeds up to 4266MT/s
    • Up to 2x32-b bus with inline ECC up to 34GB/s
  • General-Purpose Memory Controller (GPMC)
  • 3x512KB on-chip SRAM in MAIN domain, protected by ECC

    Functional Safety:

  • Functional Safety-Compliant targeted (on select part numbers)
    • Developed for functional safety applications
    • Documentation available to aid ISO 26262 functional safety system design up to ASIL-D/SIL-3 targeted
    • Systematic capability up to ASIL-D/SIL-3 targeted
    • Hardware integrity up to ASIL-D/SIL-3 targeted for MCU Domain
    • Hardware integrity up to ASIL-B/SIL-2 targeted for Main Domain
    • Hardware integrity up to ASIL-D/SIL-3 targeted for Extended MCU (EMCU) portion of the Main Domain
    • Safety-related certification
      • ISO 26262 planned
  • AEC-Q100 qualified on part number variants ending in Q1

    Device security (on select part numbers):

  • Secure boot with secure run-time support
  • Customer programmable root key, up to RSA-4K or ECC-512
  • Embedded hardware security module
  • Crypto hardware accelerators – PKA with ECC, AES, SHA, RNG, DES and 3DES

    High speed serial interfaces:

  • Integrated Ethernet switch supporting 4 external ports
    • Two ports support 5Gb, 10Gb USXGMII/XFI
    • All ports support 1Gb, 2.5Gb SGMII
    • All ports can support QSGMII. A maximum of 1 QSGMII can be enabled and uses all 4 internal lanes
  • Up to 2x2L/1x4L PCI-Express (PCIe) Gen3 controllers
    • Gen1 (2.5GT/s), Gen2 (5.0GT/s), and Gen3 (8.0GT/s) operation with auto-negotiation
  • One USB 3.0 dual-role device (DRD) subsystem
    • Enhanced SuperSpeed Gen1 Port
    • Supports Type-C switching
    • Independently configurable as USB host, USB peripheral, or USB DRD
  • Three CSI2.0 4L Camera Serial interface RX (CSI-RX) plus two CSI2.0 4L TX (CSI-TX) with DPHY
    • MIPI CSI 1.3 Compliant + MIPI-DPHY 1.2
    • CSI-RX supports for 1,2,3, or 4 data lane mode up to 2.5Gbps per lane
    • CSI-TX supports for 1,2, or 4 data lane mode up to 2.5Gbps per lane

    Ethernet:

  • Two RGMII/RMII interfaces

    Automotive interfaces:

  • Twenty Modular Controller Area Network (MCAN) modules with full CAN-FD support

    Display subsystem:

  • Two DSI 4L TX (up to 2.5k)
  • One eDP/DP interface with Multi-Display Support (MST)
  • One DPI

    Audio interfaces:

  • Five Multichannel Audio Serial Port (MCASP) modules

    Video acceleration:

  • H.264/H.265 Encode/Decode, up to 960MP/s

    Flash memory interfaces:

  • Embedded MultiMediaCard Interface ( eMMC™ 5.1)
  • One Secure Digital 3.0 / Secure Digital Input Output 3.0 interfaces (SD3.0/SDIO3.0
  • Universal Flash Storage (UFS 2.1) interface with two lanes
  • Two independent flash interfaces configured as
    • One OSPI or HyperBus™ or QSPI flash interfaces, and
    • One QSPI flash interface

    System-on-Chip (SoC) architecture:

  • 16-nm FinFET technology
  • 27mm × 27mm, 0.8-mm pitch, 1063-pin FCBGA (AND), enables IPC class 3 PCB routing

    TPS6594-Q1 Companion Power Management ICs (PMIC):

  • Functional Safety support up to ASIL-D
  • Flexible mapping to support different use cases

Processor cores:

  • Up to Three C7x floating point, vector DSP, up to 1.0GHz, 240GFLOPS, 768GOPS
  • Up to Two Deep-learning matrix multiply accelerator (MMAv2), up to 16TOPS (8b) at 1.0GHz
  • Up to Two Vision Processing Accelerators (VPAC) with Image Signal Processor (ISP) and multiple vision assist accelerators
  • Depth and Motion Processing Accelerators (DMPAC)
  • Four Arm Cortex-A72 microprocessor subsystem at up to 2.0GHz
    • 2MB shared L2 cache per quad-core Cortex-A72 cluster
    • 32KB L1 DCache and 48KB L1 ICache per Cortex-A72 core
  • Eight Arm Cortex-R5F MCUs at up to 1.0GHz
    • 16K I-Cache, 16K D-Cache, 64K L2 TCM
    • Two Arm Cortex-R5F MCUs in isolated MCU subsystem
    • Six Arm Cortex-R5F MCUs in general compute partition
  • GPU IMG BXS-4-64, 256kB Cache, up to 800MHz, 50GFLOPS, 4GTexels/s (TDA4VPE)
  • Custom-designed interconnect fabric supporting near max processing entitlement

    Memory subsystem:

  • Up to 8MB of on-chip L3 RAM with ECC and coherency
    • ECC error protection
    • Shared coherent cache
    • Supports internal DMA engine
  • Up to Two External Memory Interface (EMIF) modules with ECC
    • Supports LPDDR4 memory types
    • Supports speeds up to 4266MT/s
    • Up to 2x32-b bus with inline ECC up to 34GB/s
  • General-Purpose Memory Controller (GPMC)
  • 3x512KB on-chip SRAM in MAIN domain, protected by ECC

    Functional Safety:

  • Functional Safety-Compliant targeted (on select part numbers)
    • Developed for functional safety applications
    • Documentation available to aid ISO 26262 functional safety system design up to ASIL-D/SIL-3 targeted
    • Systematic capability up to ASIL-D/SIL-3 targeted
    • Hardware integrity up to ASIL-D/SIL-3 targeted for MCU Domain
    • Hardware integrity up to ASIL-B/SIL-2 targeted for Main Domain
    • Hardware integrity up to ASIL-D/SIL-3 targeted for Extended MCU (EMCU) portion of the Main Domain
    • Safety-related certification
      • ISO 26262 planned
  • AEC-Q100 qualified on part number variants ending in Q1

    Device security (on select part numbers):

  • Secure boot with secure run-time support
  • Customer programmable root key, up to RSA-4K or ECC-512
  • Embedded hardware security module
  • Crypto hardware accelerators – PKA with ECC, AES, SHA, RNG, DES and 3DES

    High speed serial interfaces:

  • Integrated Ethernet switch supporting 4 external ports
    • Two ports support 5Gb, 10Gb USXGMII/XFI
    • All ports support 1Gb, 2.5Gb SGMII
    • All ports can support QSGMII. A maximum of 1 QSGMII can be enabled and uses all 4 internal lanes
  • Up to 2x2L/1x4L PCI-Express (PCIe) Gen3 controllers
    • Gen1 (2.5GT/s), Gen2 (5.0GT/s), and Gen3 (8.0GT/s) operation with auto-negotiation
  • One USB 3.0 dual-role device (DRD) subsystem
    • Enhanced SuperSpeed Gen1 Port
    • Supports Type-C switching
    • Independently configurable as USB host, USB peripheral, or USB DRD
  • Three CSI2.0 4L Camera Serial interface RX (CSI-RX) plus two CSI2.0 4L TX (CSI-TX) with DPHY
    • MIPI CSI 1.3 Compliant + MIPI-DPHY 1.2
    • CSI-RX supports for 1,2,3, or 4 data lane mode up to 2.5Gbps per lane
    • CSI-TX supports for 1,2, or 4 data lane mode up to 2.5Gbps per lane

    Ethernet:

  • Two RGMII/RMII interfaces

    Automotive interfaces:

  • Twenty Modular Controller Area Network (MCAN) modules with full CAN-FD support

    Display subsystem:

  • Two DSI 4L TX (up to 2.5k)
  • One eDP/DP interface with Multi-Display Support (MST)
  • One DPI

    Audio interfaces:

  • Five Multichannel Audio Serial Port (MCASP) modules

    Video acceleration:

  • H.264/H.265 Encode/Decode, up to 960MP/s

    Flash memory interfaces:

  • Embedded MultiMediaCard Interface ( eMMC™ 5.1)
  • One Secure Digital 3.0 / Secure Digital Input Output 3.0 interfaces (SD3.0/SDIO3.0
  • Universal Flash Storage (UFS 2.1) interface with two lanes
  • Two independent flash interfaces configured as
    • One OSPI or HyperBus™ or QSPI flash interfaces, and
    • One QSPI flash interface

    System-on-Chip (SoC) architecture:

  • 16-nm FinFET technology
  • 27mm × 27mm, 0.8-mm pitch, 1063-pin FCBGA (AND), enables IPC class 3 PCB routing

    TPS6594-Q1 Companion Power Management ICs (PMIC):

  • Functional Safety support up to ASIL-D
  • Flexible mapping to support different use cases

The TDA4VPE-Q1 TDA4APE-Q1 processor family is based on the evolutionary Jacinto™ 7 architecture, targeted at ADAS and Autonomous Vehicle (AV) applications and built on extensive market knowledge accumulated over a decade of TI’s leadership in the ADAS processor market. The unique combination high-performance compute, deep-learning engine, dedicated accelerators for signal and image processing in an functional safety compliant targeted architecture make the TDA4VPE-Q1 TDA4APE-Q1 devices a great fit for several imaging, vision, radar, sensor fusion and AI applications such as: Robotics, Mobile machineries, Off-highway vehicle controller, Machine Vision, AI BOX, Gateways, Retail automation, Medical Imaging, and so on. The TDA4VPE-Q1 TDA4APE-Q1 provides high performance compute for both traditional and deep learning algorithms at industry leading power/performance ratios with a high level of system integration to enable scalability and lower costs for advanced automotive platforms supporting multiple sensor modalities in centralized ECUs or stand-alone sensors. Key cores include next generation DSP with scalar and vector cores, dedicated deep learning and traditional algorithm accelerators, latest Arm and GPU processors for general compute, an integrated next generation imaging subsystem (ISP), video codec, Ethernet hub and isolated MCU island. All protected by automotive grade safety and security hardware accelerators.

Key Performance Cores Overview

The “C7x” next generation DSP combines TI’s industry leading DSP and EVE cores into a single higher performance core and adds floating point vector calculation capabilities, enabling backward compatibility for legacy code while simplifying software programming. A single instance of the new “MMAv2” deep learning accelerator enables performance up to 8 TOPS within the lowest power envelope in the industry when operating at the typical automotive worst case junction temperature of 125°C. The dedicated ADAS/AV hardware accelerators provide vision pre-processing plus distance and motion processing with no impact on system performance.

General Compute Cores and Integration Overview

Separate four core cluster configuration of Arm Cortex-A72 facilitates multi-OS applications with minimal need for a software hypervisor. Four Arm® Cortex®-R5F subsystems enable low-level, timing critical processing tasks to leave the Arm® Cortex®-A72’s unencumbered for applications. The integrated IMG BXS-4-64 GPU offers up to 50GFLOPS to enable dynamic 3D rendering for enhanced viewing applications. Building on the existing world-class ISP, TI’s 7th generation ISP includes flexibility to process a broader sensor suite, support for higher bit depth, and features targeting analytics applications. Integrated diagnostics and safety features support operations up to ASIL-D/SIL-3 levels while the integrated security features protect data against modern day attacks. To enable systems requiring heavy data bandwidth, a PCIe hub and Gigabit Ethernet switch are included along with CSI-2 ports to support throughput for many sensor inputs. To further the integration, the TDA4VPE-Q1 TDA4APE-Q1 family also includes an MCU island eliminating the need for an external system microcontroller.

The TDA4VPE-Q1 TDA4APE-Q1 processor family is based on the evolutionary Jacinto™ 7 architecture, targeted at ADAS and Autonomous Vehicle (AV) applications and built on extensive market knowledge accumulated over a decade of TI’s leadership in the ADAS processor market. The unique combination high-performance compute, deep-learning engine, dedicated accelerators for signal and image processing in an functional safety compliant targeted architecture make the TDA4VPE-Q1 TDA4APE-Q1 devices a great fit for several imaging, vision, radar, sensor fusion and AI applications such as: Robotics, Mobile machineries, Off-highway vehicle controller, Machine Vision, AI BOX, Gateways, Retail automation, Medical Imaging, and so on. The TDA4VPE-Q1 TDA4APE-Q1 provides high performance compute for both traditional and deep learning algorithms at industry leading power/performance ratios with a high level of system integration to enable scalability and lower costs for advanced automotive platforms supporting multiple sensor modalities in centralized ECUs or stand-alone sensors. Key cores include next generation DSP with scalar and vector cores, dedicated deep learning and traditional algorithm accelerators, latest Arm and GPU processors for general compute, an integrated next generation imaging subsystem (ISP), video codec, Ethernet hub and isolated MCU island. All protected by automotive grade safety and security hardware accelerators.

Key Performance Cores Overview

The “C7x” next generation DSP combines TI’s industry leading DSP and EVE cores into a single higher performance core and adds floating point vector calculation capabilities, enabling backward compatibility for legacy code while simplifying software programming. A single instance of the new “MMAv2” deep learning accelerator enables performance up to 8 TOPS within the lowest power envelope in the industry when operating at the typical automotive worst case junction temperature of 125°C. The dedicated ADAS/AV hardware accelerators provide vision pre-processing plus distance and motion processing with no impact on system performance.

General Compute Cores and Integration Overview

Separate four core cluster configuration of Arm Cortex-A72 facilitates multi-OS applications with minimal need for a software hypervisor. Four Arm® Cortex®-R5F subsystems enable low-level, timing critical processing tasks to leave the Arm® Cortex®-A72’s unencumbered for applications. The integrated IMG BXS-4-64 GPU offers up to 50GFLOPS to enable dynamic 3D rendering for enhanced viewing applications. Building on the existing world-class ISP, TI’s 7th generation ISP includes flexibility to process a broader sensor suite, support for higher bit depth, and features targeting analytics applications. Integrated diagnostics and safety features support operations up to ASIL-D/SIL-3 levels while the integrated security features protect data against modern day attacks. To enable systems requiring heavy data bandwidth, a PCIe hub and Gigabit Ethernet switch are included along with CSI-2 ports to support throughput for many sensor inputs. To further the integration, the TDA4VPE-Q1 TDA4APE-Q1 family also includes an MCU island eliminating the need for an external system microcontroller.
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類型 標題 日期
* Data sheet TDA4VPE-Q1, TDA4APE-Q1 Jacinto™ Automotive Processors datasheet (Rev. A) PDF | HTML 2024年 12月 13日
* Errata J784S4, TDA4AP, TDA4VP, TDA4AH, TDA4VH, AM69A Processors Silicon Revision 1.0 (Rev. B) PDF | HTML 2024年 7月 24日
* User guide J784S4 J742S2 Technical Reference Manual (Rev. E) PDF | HTML 2025年 9月 18日
Functional safety information J721E, J721S2, J7200, J784S4, and J742S2 TÜV SÜD Letter of Confirmation for Software Component Qualification 2025年 10月 1日
Functional safety information J7200, J721E, J721S2, J722S, J742S2, and J784S4 SDL TÜV SÜD Functional Safety Certificate (Rev. A) 2025年 9月 25日
Functional safety information TÜV SÜD Certificate for Functional Safety Software Development Process (Rev. D) 2025年 6月 17日
Functional safety information J784S4: TDA4VH TDA4AH TDA4VP TDA4AP SN17 SN18, J742S2: TDA4VPE TDA4APE SN16 TÜV Functional Safety Certificate 2025年 6月 11日
User guide Powering Jacinto 7 SoC For Isolated Power Groups With TPS6594133A-Q1 + Dual HCPS (Rev. A) PDF | HTML 2025年 5月 16日
User guide J784S4, TDA4VH, TDA4AH, TDA4VP, TDA4AP, AM69 Power Estimation Tool User’s Guide (Rev. A) 2024年 12月 23日
Application note Jacinto 7 LPDDR4 Board Design and Layout Guidelines (Rev. F) PDF | HTML 2024年 8月 5日
User guide J784S4 J742S2 Technical Reference Manual (Rev. D) 2024年 7月 24日
Application note Debugging GPU Driver Issues on TDA4x and AM6x Devices PDF | HTML 2024年 6月 20日
EVM User's guide J742S2XH01EVM Evaluation Module User's Guide PDF | HTML 2024年 6月 17日
Application note Jacinto7 AM6x, TDA4x, and DRA8x High-Speed Interface Design Guidelines (Rev. A) PDF | HTML 2024年 6月 4日
Application note MMC SW Tuning Algorithm (Rev. A) PDF | HTML 2024年 5月 14日
Application note Jacinto7 AM6x/TDA4x/DRA8x Schematic Checklist (Rev. B) PDF | HTML 2024年 4月 4日
Technical article Building multicamera vision perception systems for ADAS domain controllers with integrated processors PDF | HTML 2024年 1月 5日
Technical article How to deliver current beyond 100 A to an ADAS processor PDF | HTML 2024年 1月 4日
Application note Jacinto7 HS Device Customer Return Process PDF | HTML 2023年 11月 16日
White paper 以高度整合處理器設計高效邊緣 AI 系統 (Rev. A) PDF | HTML 2023年 4月 19日
Application note UART Log Debug System on Jacinto 7 SoC PDF | HTML 2023年 1月 9日
Product overview Jacinto™ 7 Safety Product Overview PDF | HTML 2022年 8月 15日
Application note Dual-TDA4x System Solution PDF | HTML 2022年 4月 29日
Application note SPI Enablement & Validation on TDA4 Family PDF | HTML 2022年 4月 5日
Technical article How are sensors and processors creating more intelligent and autonomous robots? PDF | HTML 2022年 3月 29日
Technical article How to simplify your embedded edge AI application development PDF | HTML 2022年 1月 28日
Application note Enabling MAC2MAC Feature on Jacinto7 Soc 2022年 1月 10日
Application note TDA4 Flashing Techniques PDF | HTML 2021年 7月 8日
White paper Security Enablers on Jacinto™ 7 Processors 2021年 1月 4日
White paper Enabling Differentiation through MCU Integration on Jacinto™ 7 Processors 2020年 10月 22日
Application note OSPI Tuning Procedure PDF | HTML 2020年 7月 8日

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開發板

J742S2XH01EVM — TDA4VPE 和 TDA4APE 評估模組

J742S2XH01EVM 評估模組 (EVM) 是評估 TDA4VPE-Q1 和 TDA4APE-Q1 處理器在汽車與工業市場中之視覺分析與網路應用的平台。這些處理器在多攝影機、感測器融合與先進駕駛輔助系統 (ADAS) 網域控制應用中的表現尤佳。J742S2XH01EVM 受 SDK 處理器支援,其中包含基礎驅動器、運算與視覺核心及範例應用架構與示範,可說明如何運用 Jacinto™ 7 處理器的強大異質架構。

使用指南: PDF | HTML
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開發板

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擴充 Jacinto7 EVM 的功能,以開發及評估可讓開發人員圍繞 Jacinto7 系列處理器開發硬體及寫入軟體的系統。可使用 Fusion2 擴充卡,將其他功能新增至 EVM/SK

Fusion2 序列擷取電路板能夠介接 Jacinto7 處理器與外部攝影機感測器、雷達感測器和其他類似擷取裝置。  支援最多十二個高速資料來源輸入,並結合為數位 MIPI CSI-2 訊號。 
 

使用指南: PDF | HTML
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偵錯探測器

LB-3P-TRACE32-ARM — 適用於 Arm® 架構微控制器和處理器的 Lauterbach TRACE32® 偵錯和追蹤系統

Lauterbach 的 TRACE32® 工具是一套先進的軟硬體元件,可讓開發人員分析、最佳化及認證各種 Arm® 架構微控制器和處理器。全球知名的嵌入式系統和 SoC 偵錯和追蹤解決方案是完美的解決方案,適用於從早期的矽前 (pre-silicon) 開發,到產品認證和現場故障排除等所有開發階段。Lauterbach 工具的直覺模組化設計為工程師提供現今最高的可用性能,以及可隨需求變化而調整和成長的系統。藉由 TRACE32® 偵錯器,開發人員也可透過單一偵錯介面,同時偵錯和控制 SoC 中的任何 C28x/C29x/C6x/C7x DSP 核心及所有其他 Arm (...)

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偵錯探測器

TSK-3P-BLUEBOX — TASKING BlueBox hardware debugger

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從:TASKING Germany GmbH
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軟體開發套件 (SDK)

J742S2-PROCESSOR-LINUX-SDK Linux® SDK for TDA4APE-Q1 and TDA4VPE-Q1

The J742S2 processor software development kit (SDK) real-time operating system (RTOS) can be used together with either processor SDK Linux® or processor SDK QNX® to form a multiprocessor software development platform for TDA4APE-Q1 and TDA4VPE-Q1 system-on-a-chip (SoCs) within our Jacinto™ (...)

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產品
Arm 架構處理器
TDA4APE-Q1 具有四核 Arm® Cortex®-A72、16 TOPS AI 和 C7xDSP 視覺感知和分析的 SoC TDA4VPE-Q1 適用於視覺感知和分析、具有四 Arm® Cortex®-A72、16 TOPS AI、C7xDSP 和 GPU 的 SoC
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軟體開發套件 (SDK)

J742S2-PROCESSOR-QNX-SDK QNX SDK for TDA4APE-Q1 and TDA4VPE-Q1

The J742S2 processor software development kit (SDK) real-time operating system (RTOS) can be used together with either processor SDK Linux® or processor SDK QNX® to form a multiprocessor software development platform for TDA4APE-Q1 and TDA4VPE-Q1 system-on-a-chip (SoCs) within our Jacinto™ (...)

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支援產品和硬體

產品
Arm 架構處理器
TDA4APE-Q1 具有四核 Arm® Cortex®-A72、16 TOPS AI 和 C7xDSP 視覺感知和分析的 SoC TDA4VPE-Q1 適用於視覺感知和分析、具有四 Arm® Cortex®-A72、16 TOPS AI、C7xDSP 和 GPU 的 SoC
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應用軟體及架構

J742S2-SW J742S2 software

Software packages for Processor SDK release
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支援產品和硬體

產品
Arm 架構處理器
TDA4VPE-Q1 適用於視覺感知和分析、具有四 Arm® Cortex®-A72、16 TOPS AI、C7xDSP 和 GPU 的 SoC TDA4APE-Q1 具有四核 Arm® Cortex®-A72、16 TOPS AI 和 C7xDSP 視覺感知和分析的 SoC
要求
韌體

USIT-3P-SECIC-HSM — Uni-Sentry SecIC-HSM 韌體

SecIC-HSM 旨在滿足 MCU/SoC 晶片所需的網路安全要求。HSM 韌體可應用於汽車、新能源、光伏、機器人、醫療保健與航空等領域。提供的網路安全功能包括安全開機、安全通訊 (SecOC)、安全診斷、安全儲存、安全更新、安全偵錯和金鑰管理。SecIC-HSM 的優點:一站式網路安全解決方案,具備跨晶片系列的全方位軟體相容性,擁有業界領先的性能,已在近 30 家 OEM 的量產車型中成功部署,累計出貨超過 300 萬套。
從:Shanghai Uni-Sentry Intelligent Technology Co., LTD
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韌體

USIT-3P-SECIC-PQC — Uni-Sentry SecIC-PQC 演算法韌體

Uni-Sentry 的安全解決方案採用 PQC 演算法,能夠抵抗量子電腦對傳統加密演算法所造成的解密威脅。PQC 韌體與硬體安全模組 (HSM) 進行協同優化,利用硬體加速與安全性強化,以提升加密演算法的執行效率與安全性。 


Uni-Sentry 持續監控全球量子運算的發展,並更新其演算法組合。當前的 PQC 產品功能包括:

  • SP 800-208:LMS 和 XMSS
  • FIPS 203 (ML-KEM):CRYSTALS-KYBER
  • FIPS 204 (ML-DSA):CRYSTALS-Dilithium
  • FIPS 205 (SLH-DSA): SPHINCS+ 

技術亮點 

  • 量子抗性認證:與 (...)
從:Shanghai Uni-Sentry Intelligent Technology Co., LTD
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IDE、配置、編譯器或偵錯程式

CCSTUDIO Code Composer Studio™ integrated development environment (IDE)

Code Composer Studio is an integrated development environment (IDE) for TI's microcontrollers and processors. It is comprised of a rich suite of tools used to build, debug, analyze and optimize embedded applications. Code Composer Studio is available across Windows®, Linux® and macOS® platforms.

(...)

支援產品和硬體

支援產品和硬體

此設計資源支援此類別中多數產品。

檢查產品詳細資料頁面以確認支援。
啟動 下載選項
作業系統 (OS)

WHIS-3P-SAFERTOS — WITTENSTEIN SAFERTOS 預先認證的安全 RTOS

SAFERTOS® 是專為嵌入式處理器設計的獨特即時作業系統。經 TÜV SÜD 預先認證,符合 IEC 61508 SIL3 與 ISO 26262 ASILD 標準。SAFERTOS® 是由 WHIS 專家團隊專為安全而打造,適用於全球重要安全應用。WHIS 與德州儀器的合作已經超過十年。在此期間,WHIS 已將 SAFERTOS® 移植至各種 TI 處理器,支援所有熱門核心,並可依要求提供其他架構。SAFERTOS® 專為您的特定處理器/編譯器組合量身打造,隨附完整的原始程式碼與設計保證包,可完全一目了然整個設計生命週期。許多 WHIS 客戶開始使用 FreeRTOS (...)
從:WITTENSTEIN High Integrity Systems
造訪合作夥伴網站
模擬型號

J742S2 BSDL Model

SPRM866.ZIP (16 KB) - BSDL Model
下載
模擬型號

J742S2 IBIS Model

SPRM865.ZIP (1496 KB) - IBIS Model
下載
模擬型號

J742S2 Thermal Model

SPRM864.ZIP (0 KB) - Thermal Model
下載
封裝 針腳 CAD 符號、佔位空間與 3D 模型
FCBGA (AND) 1063 Ultra Librarian
適用 TI 的評估品項標準條款與條件。

訂購與品質

內含資訊:
  • RoHS
  • REACH
  • 產品標記
  • 鉛塗層/球物料
  • MSL 等級/回焊峰值
  • MTBF/FIT 估算值
  • 材料內容
  • 認證摘要
  • 進行中持續性的可靠性監測
內含資訊:
  • 晶圓廠位置
  • 組裝地點

建議產品可能具有與此 TI 產品相關的參數、評估模組或參考設計。

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