automotive

Posted on by Jean-Luc Aufranc (CNXSoft) - 14 Comments on Imagination introduces Catapult RISC-V CPU cores

Imagination introduces Catapult RISC-V CPU cores

Catapult RISC-V CPU

As expected, Imagination Technologies is giving another try to the CPU IP market with the Catapult RISC-V CPU cores following their previous unsuccessful attempt with the MIPS architecture, notably the Aptiv family. Catapult RISC-V CPUs are/will be available in four distinct families for dynamic microcontrollers, real-time embedded CPUs, high-performance application CPUs, and functionally safe automotive CPUs. The new 32-/64-bit RISC-V cores will be scalable to up to eight asymmetric coherent cores-per cluster, offer a “plethora of customer configurable options”, and support optional custom accelerators. What you won’t see today are block diagrams and detailed technical information about the cores because apparently, all that information is confidential even though some Catapult RISC-V cores are already shipping “in high-performance Imagination automotive GPUs”. The only way to get more details today is to sign an NDA. Having said that we have some more information about the target markets and development tools.  Imagination Capapult […]

Posted on by Jean-Luc Aufranc (CNXSoft) - No Comments on Amlogic V901D – A quad-core Cortex-A55 processor for in-vehicle infotainment

Amlogic V901D – A quad-core Cortex-A55 processor for in-vehicle infotainment

Amlogic V901D

Amlogic has decided to enter the automotive market with the Amlogic V901D quad-core Cortex-A55 processor designed for in-vehicle infotainment (IVI) applications such as car dashboards, multi-camera dashcam systems, automotive multimedia players, and so on. Also equipped with an Arm Mali-G31 MP2, a 1 TOPS NPU, support for 4K AV1 video decoding, and a 12nm manufacturing processor, Amlogic V901D may look like a rebranded Amlogic S905X4 at first glance, but as we’ll see below, it includes some features specific to the automotive infotainment market. Amlogic V901D specifications: CPU – Quad-Core Cortex-A55 GPU – ARM Mali-G31 MP2 AI accelerator – 1 TOPS NPU Memory I/F – 32-bit DDR3/4, LPDDR3/4 Storage I/F – eMMC 5.0, SLC NAND Video I/F Output – V-by-one, LVDS, CVBS, 4K TCON Input – 3x HDMI 2.1 w/ EMP (Extended Metadata Packet), ALLM, 2x CVBS Video Decoding – 4Kp60 10-bit AV1/H.265/VP9 P-2/AVS2, 4Kp30 H.264 Encoding – 1080p30 H.264 HDR […]

Posted on by Jean-Luc Aufranc (CNXSoft) - 3 Comments on Hardware security flaw impacts Intel Apollo Lake & Gemini Lake processors

Hardware security flaw impacts Intel Apollo Lake & Gemini Lake processors

Hardware security flaw intel-atom, celeron, pentium Apollo Lake, Gemini Lake

A few years go the Spectre and Meltdown hardware security vulnerabilities impacted a wide range of processors from Intel, AMD, Arm, and others. But a newly discovered hardware security flaw impacts specifically the Atom, Celeron, and Pentium from the Apollo Lake, Gemini Lake, Denverton … low-power processors we often feature on CNX Software. Researchers have managed to activate test or debug logic at runtime for some low-power Intel processors, which they could use to escalate privilege, retrieve the “fuse encryption key” aka “chipset key fuse” unique to each processor, and access encrypted data. Most people do not need to panic though, as the hack would require physical access to the machine, and Intel says it is releasing firmware updates to mitigate the vulnerability. High-value targets should care though as the hack only takes 10 minutes, and if a laptop is stolen or lost, a skilled attacker should be able to […]

Posted on by Jean-Luc Aufranc (CNXSoft) - 2 Comments on Renesas RH850/U2B automotive SoC features RISC-V-based parallel co-processor

Renesas RH850/U2B automotive SoC features RISC-V-based parallel co-processor

Renesas RH850/U2B

Renesas Electronics RH850/U2B is an automotive SoC designed for electronic control unit (ECU) with used for hybrid ICE and xEV traction inverter, high-end zone control, connected gateways, and vehicle motion applications. The processor includes up to eight 400MHz RH850 32-bit RISC performance cores with four of them in lockstep architecture for ASIL-D and ASIL-B compliance, as well as DR1000C RISC-V-based parallel co-processor (data flow processor) with vector extension (DFP) from NSITEXE designed to support “the fast execution of complex mathematical algorithms”. Renesas RH850/U2B key features & specifications: CPU cores – 400MHz speed for up to 8+4 (LockStep) RH850 G4MH CPUs Memory – Up to 5.1MB RAM on-chip Storage Up to 32MB Flash on-chip SFMA (Serial flash memory interface), eMMC interfaces for external storage Co-Processor – DR1000C RISC-V based MIMD high-performance embedded vector processor Embedded EMU3S (Embedded motor control unit), RDC3X (Position sensor interface), TSG3 (motor timer) for field-oriented traction motor […]

Posted on by Jean-Luc Aufranc (CNXSoft) - 5 Comments on NXP i.MX 93 processor combines Cortex-A55 cores with Ethos U65 microNPU

NXP i.MX 93 processor combines Cortex-A55 cores with Ethos U65 microNPU

NXP i.MX 93 (935x/933x)

NXP has unveiled the i.MX 93 processor family comprised of i.MX 935x, 933x, 932x, and 931x parts at this time with up to two Cortex-A55 cores, one Arm Cortex-M33 real-time core, as well as an Ethos U65 microNPU for machine learning (ML). We wrote about i.MX 9 family back in March with NXP telling us it would include an Arm Ethos U-65 microNPU and EdgeLock secure enclave, be manufactured with a 16/12nm FinFET class process, and includes the “Energy Flex” architecture to optimize power consumption by turning on/off specific blocks in the processor. The NXP i.MX 93 is the first family leveraging those new features, and we know have some more details. NXP i.MX 93 processor specifications: CPU 1x or 2x Arm Cortex-A55 @ 1.7 GHz with 32KB I-cache, 32KB D-cache, 64KB L2 cache, 256KB L3 cache with ECC 1x Arm Cortex-M33 @ 250 MHz low power microcontroller with 256KB […]

Posted on by Jean-Luc Aufranc (CNXSoft) - 27 Comments on NVIDIA Jetson AGX Orin 12-core Cortex-A78E module delivers up to 200 TOPS

NVIDIA Jetson AGX Orin 12-core Cortex-A78E module delivers up to 200 TOPS

Jetson AGX Orin

The upcoming NVIDIA Jetson AGX Orin module packs some serious processing power with a 12-core Cortex-A78AE processor, 2048 CUDA cores, and 64 Tensor cores delivering up to 200 TOPS of AI performance, or 6 times more than its predecessor, the Jetson AGX Xavier module. Designed for robotics, autonomous machines, medical devices, the Jetson AGX Orin delivers the same performance as a GPU-enabled server, but in a much more compact 100 x 87mm form factor. The module can be operated in three power modes, namely 15W, 30W, or 50W depending on performance and power requirements, and a compact developer kit will also be made available. Jetson AGX Orin specifications: CPU – 12-core Arm Cortex-A78AE v8.2 64-bit processor with 3MB L2 + 6MB L3 cache GPU / AI accelerators NVIDIA Ampere architecture with 2048 NVIDIA CUDA cores and 64 Tensor Cores @ 1 GHz DL Accelerator – 2x NVDLA v2.0 Vision Accelerator […]

Posted on by Jean-Luc Aufranc (CNXSoft) - No Comments on SolidRun i.MX 8XLite SoM embeds DSRC modem, GPS for V2X automotive applications

SolidRun i.MX 8XLite SoM embeds DSRC modem, GPS for V2X automotive applications

SolidRun i.MX 8XLite System-on-Module

The GPU-less NXP i.MX 8XLite Cortex-A35/M4 SoC was just announced earlier this month for V2X and IIoT applications, and now SolidRun unveiled the first module based on the new processor with the “i.MX 8XLite System-on-Module”. Also equipped with a RoadLINK SAF5400 safety modem, SolidRun’s Mini SoM targets vehicle telematics, vehicle-to-vehicle (V2V) and vehicle-to-infrastructure (V2I) communications, road infrastructure connectivity, and industrial equipment. SolidRun i.MX 8XLite specifications: SoC – NXP i.MX 8XLite single or dual-cire Cortex-A35 processor @ 1.2 GHz, with Cortex-M4F real-time core System Memory – 1GB LPDDR4 with inline ECC Storage – 8GB eMMC flash Ethernet – NXP TJA1100 100BASE-T1 Automotive Ethernet transceiver Wireless NXP RoadLink SAF5400 DSRC/802.11p (V2X) single modem dual antenna (u.FL connectors) GNSS module for GPS 2x Hirose DF40 board-to-board connectors with: Storage – SD/MMC card, PCIe SSD Ethernet – 100BASE-T1 Automotive Ethernet USB – 2x USB 2.0 PCIe – 1x PCIe Low-speed interfaces – 2x I2C, […]

Posted on by Jean-Luc Aufranc (CNXSoft) - No Comments on GPU-less NXP i.MX 8XLite Cortex-A35/M4 SoC is aimed at IIoT & V2X applications

GPU-less NXP i.MX 8XLite Cortex-A35/M4 SoC is aimed at IIoT & V2X applications

NXP i.MX 8XLite

NXP i.MX 8XLite SoC is a cost-optimized version of NXP i.MX 8X automotive processor with up to two Cortex-A35 cores, one Cortex-M4F real-time core, and in a GPU-less configuration since it lacks the Vivante GPU found in i.MX 8X family. The headless processor also comes with dedicated Hardware Security Modules (HSM) to enable telematics solutions, vehicle-to-everything (V2X) applications including vehicle-to-vehicle (V2V) and vehicle-to-infrastructure (V2I) solutions, road infrastructure connectivity, as well as IIoT applications such as industrial equipment and building automation. NXP i.MX 8XLite key features and specifications: Processor complex 1x or 2x Arm Cortex-A35 cores @ up to 1.2 GHz with 256KB L2 cache with ECC 1x Arm Cortex-M4F core for real-time processing Memory I/F – 16-bit DDR3L-1866 and LPDDR4-2400 with ECC protection Storage I/F 1x FlexSPI for fast boot from SPI NOR flash 2x SD 3.0 card interfaces 1x eMMC5.1/SD3.0 NAND (62-bit ECC support) Networking – 1x Gigabit Ethernet […]

EmbeddedTS embedded systems design