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01
SDV platform SoA based architecture, serving non-safety & safety related applications. 



 

Goals 

02
Hardware abstraction layer (HAL) architecture definition in context of a comprehensive "System + Software" approach.

 

03
HAL developments - standardized interfaces to sensors, actors, compute resources and persistent storage, abstraction using hypervisors, HAL SW updates

04
HAL key software element updates


 

05
HAL for secure enclaves to build up zero-trust concepts

 

06
Cloud-based rapid prototyping for SDV

This diversity brings a wide range of perspectives and expertise to our projects.

Our team is composed of members from across Europe. 

2024

Start

36

Duration in months

59

Total of partners

Outcomes

Set of Modular Building Blocks with Managed Interfaces

Reference Architecture with Logical Center Computer

Reference Implementation of Standard Software 

Real vehicle that demonstrates validity of test  

About the project

Mission

The HAL4SDV project's mission is to advance European solutions in software-defined next-generation vehicles. By focusing on unifying software interfaces and development methodologies, HAL4SDV will enable software configuration that abstracts from vehicle hardware, paving the way for a "software-defined vehicle (SDV)" approach for both safety-critical and non-safety-critical applications in future vehicles.

©HAL4SDV

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HAL4SDV receives funding within the Chips Joint Undertaking (Chips JU) - the Public-Private Partnership for research, development and innovation under Horizon Europe – and National Authorities under grant agreement n° 101139789.

Funded by the European Union. Views and opinions expressed are however those of the author(s) only and do not necessarily reflect those of the European Union or the granting authority. Neither the European Union nor the granting authority can be held responsible for them.

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Roll-up

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Logo (black)

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Poster

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Logo (white)

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Flyer

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HAL4SDV:
Systems Safety Security Software

Hardware Abstraction Layer for a European Software Defined Vehicle Approach

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Software for interoperability, safety & security

Hardware Abstraction Layer for a European Software Defined Vehicle Approach

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Goals 

The goals are to develop a secure, scalable SDV platform using SoA and HAL, integrating standardized interfaces, rapid prototyping, and mixed criticality deployment, while leveraging modern ecosystems and advanced testing methodologies.

Additionally, the focus is on enhancing security with zero-trust frameworks and real-time capabilities.

About the project:

man-working-computer-with-sophisticated-car-design-software-hightech-automotive-design-stu

Mission

The HAL4SDV project's mission is to advance European solutions in software-defined next-generation vehicles. By focusing on unifying software interfaces and development methodologies, HAL4SDV will enable software configuration that abstracts from vehicle hardware, paving the way for a "software-defined vehicle (SDV)" approach for both safety-critical and non-safety-critical applications in future vehicles.

Objectives

The goals are to develop a secure, scalable SDV platform using SoA and HAL, integrating standardized interfaces, rapid prototyping, and mixed criticality deployment, while leveraging modern ecosystems and advanced testing methodologies.

Additionally, the focus is on enhancing security with zero-trust frameworks and real-time capabilities.

Real vehicle that demonstrates validity of test  

Real Vehicle that Demonstrates

Validity of Approach 

A real vehicle that demonstrates the approach by showing verified key functions from the safety-critical and non-safety-critical domains, including driving-by-wire, braking-by-wire, steering-by-wire. 

Reference Implementation of Standard Software 

Reference Implementation of Standard Software 

A fully functional reference implementation of the standard software development framework, the hypervisor abstraction layer, and the abstraction layer for higher level vehicle functions.

Reference Architecture with Logical Center Computer

Reference Architecture with Logical Center Computer

Future-proof reference architecture with logical central computer that can adapt to different peripheral topologies and scale to different vehicle sizes.

Outcomes

Set of Modular Building Blocks with Managed Interfaces

Set of Modular Building Blocks with Managed Interfaces

Set of modular building blocks with managed interfaces that can be deployed to a logical central computer, adapted to different peripheral topologies and scaled to different vehicle sizes. 

This diversity brings a wide range of perspectives and expertise to our projects.

Our team is composed of members from across Europe. 

2024

Start

36

Duration in months

62

Total of partners

The consortium consists of 53 partners & 9 associated partners from 12 countries.  

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