FACT SHEET S32G2 S32G2 SAFE AND SECURE VEHICLE NETWORK PROCESSORS S32G2 combines hardware security, ASIL D safety, high-performance real-time and application processing, and network acceleration for service-oriented gateways, domain controllers and safety co-processors. TARGET APPLICATIONS Central gateways that require acceleration for deterministic networking and processor offloading and embedded security for emerging over-the-air services Service-oriented gareways and vehicle computers that require high-performance application processing with isolation to rapidly deploy new safe and secure services Domain controllers that require high-performance real-time and application processing to support ECU consolidation, network protocol translation and local domain control Safety co-processors that require ASIL D functional safety S32 Design Studio IDE processing with network connectivity and PCI Express for data sharing with other components and central GNU tools, debugger, configuration tools (IVT, DCD, mass storage DDR), FreeRTOS SDK and flash programmer Firmware for hardware accelerators (HSE, LLCE, PFE) Designed and manufactured to our proven automotive practices, and with an embedded hardware security Premium Security software option engine (HSE), the S32G2 processors satisfy developers Inter Platform Communications Framework (IPCF) needs for high performance, safety, security and reliability. Software integration reference examples ENABLEMENT TOOLS Supported by POSIX-compliant operating systems, Hardware Board Support AUTOSAR Adaptive Platform, and hypervisors NXP S32G2-VNP-RDB reference design board Supported by NXP S32 Debug Probe and multiple third- NXP S32G-VNP-GLDBOX (GoldBox) party debuggers MicroSys miriac SBC-S32G274A with SoM S32 Safety Software Framework (SAF) Linux BSP S32G Vehicle Integration Platform (GoldVIP) Real Time Drivers (RTD) including AUTOSAR MCAL SAFEASSURE FUNCTIONAL SAFETY PROGRAM Functional safety. Simplified. Our SafeAssure functional safety program is designed to help system manufacturers more easily achieve system compliance with International Standards Organization (ISO) 26262 and International Electrotechnical Commission (IEC) 61508 functional safety standards. The program highlights our hardware and software solutions that are optimally designed to support functional safety implementations and come with a rich set of enablement collateral. For more information, visit www.nxp.com/SafeAssure. S32G274A BLOCK DIAGRAM Memory Network Acceleration Processors 8 MB System RAM Automotive Networks Low Latency Standby SRAM Arm Cortex -M7 Arm Cortex-A53 Arm Cortex-A53 Communication Engine Arm Cortex-M7 Transport Layer Offload DDR3L/LPDDR4 I/F Arm Cortex-M7 I-cache D-cache L1Arm Cortex-A53L1 L1Arm Cortex-A53L1 Arm Cortex-M7 I-cache D-cache I-cache D-cache I-cache D-cache 16 x CAN FD FlexRay NOR Flash Memory I/F Arm Cortex-M7 L1 L1 L1 L1 TCMI-cache D-cache FPU Arm Cortex-M7 Neon Neon TCMI-cache D-cache I-cache D-cache I-cache D-cache FPU NAND Flash Memory I/Fs Flexible Buffers D-cache I-cache TCM TM FPU Shared L2 CacheNeon Shared L2 CacheNeon I-cache D-cache TCM FPU System 4 x LIN 4 x SPI TCM FPU Shared L2 Cache Shared L2 Cache TCM FCCU and MBIST/LBIST FPU Security Offload PLLs Global Timestamping 3x Dual-core Lockstep Cluster Lockstep Option 2 x Safe DMA Debug and Trace Unit Fabric Ethernet Networks 8 x XRDC Domains Safe Interconnect Packet Forwarding Engine Security Stateful Inspection Serial Communication Timers and ADCs Hardware Security Engine Firewall 2 Asymmetric Hardware 6 x SPI 5 x I C Classification 7 x Watchdog Timer Accelerators Networking Symmetric Hardware Header Manipulation 8 x System Timer Accelerators 3 x LIN 4 x CAN FD IEEE 1588v2 + AVB Secure Memory 12 x FlexTimer 1-GbE w/ TSN FlexRay 2.5-GbE 1-GbE 1-GbE Random Number MAC MAC MAC Generators USB 2.0 OTG 2 x PCIe 3.0 2 x SAR ADCs (12-ch) S32G2 SAFE AND SECURE VEHICLE NETWORK PROCESSORS Key Features Benefits Designed and manufactured to satisfy automotive reliability Helps accelerate development of functional safety applications, including advanced and ISO 26262 ASIL D functional safety requirements driver assistance systems (ADAS) and autonomous drive systems Quad Arm Cortex-A53 cores with Arm Neon technology organized Supports high-performance processing and high-level operating systems for service- in two clusters of two cores with optional cluster lockstep oriented gateways, ECU consolidation and safety applications Supports real-time processing and safety operating systems for safe processing and Triple Arm Cortex-M7 dual-core lockstep cores ECU consolidation Helps enable deterministic automotive networks and offloads processors to focus on Low Latency Communication Engine (LLCE) value-add services Provides high-performance stateful firewall, classification and header manipulation and Packet Forwarding Engine (PFE) offloads processors to focus on value-add services Supports fail-operational fault recovery with capability through detection, isolation and Advanced functional safety hardware and software resolution of faults without system shutdown Helps to accelerate security services to offload processors and network accelerators and Hardware Security Engine (HSE) helps provide protection against IP theft and cyber security attacks AEC-Q100 Grade 2 device (-40C to 105C) Supports a wide range of automotive applications www.nxp.com/S32G2 NXP, the NXP logo and SafeAssure are trademarks of NXP B.V. All other product or service names are the property of their respective owners. Arm, Cortex and Neon are trademarks or registered trademarks of Arm Limited (or its subsidiaries) in the US and/or elsewhere. The related technology may be protected by any or all patents, copyrights, designs and trade secrets. All rights reserved. 2021 NXP B.V. Document Number: S32GVNPFS REV 4