124,692 research outputs found
A Comprehensive Workflow for General-Purpose Neural Modeling with Highly Configurable Neuromorphic Hardware Systems
In this paper we present a methodological framework that meets novel
requirements emerging from upcoming types of accelerated and highly
configurable neuromorphic hardware systems. We describe in detail a device with
45 million programmable and dynamic synapses that is currently under
development, and we sketch the conceptual challenges that arise from taking
this platform into operation. More specifically, we aim at the establishment of
this neuromorphic system as a flexible and neuroscientifically valuable
modeling tool that can be used by non-hardware-experts. We consider various
functional aspects to be crucial for this purpose, and we introduce a
consistent workflow with detailed descriptions of all involved modules that
implement the suggested steps: The integration of the hardware interface into
the simulator-independent model description language PyNN; a fully automated
translation between the PyNN domain and appropriate hardware configurations; an
executable specification of the future neuromorphic system that can be
seamlessly integrated into this biology-to-hardware mapping process as a test
bench for all software layers and possible hardware design modifications; an
evaluation scheme that deploys models from a dedicated benchmark library,
compares the results generated by virtual or prototype hardware devices with
reference software simulations and analyzes the differences. The integration of
these components into one hardware-software workflow provides an ecosystem for
ongoing preparative studies that support the hardware design process and
represents the basis for the maturity of the model-to-hardware mapping
software. The functionality and flexibility of the latter is proven with a
variety of experimental results
Towards the Model-Driven Engineering of Secure yet Safe Embedded Systems
We introduce SysML-Sec, a SysML-based Model-Driven Engineering environment
aimed at fostering the collaboration between system designers and security
experts at all methodological stages of the development of an embedded system.
A central issue in the design of an embedded system is the definition of the
hardware/software partitioning of the architecture of the system, which should
take place as early as possible. SysML-Sec aims to extend the relevance of this
analysis through the integration of security requirements and threats. In
particular, we propose an agile methodology whose aim is to assess early on the
impact of the security requirements and of the security mechanisms designed to
satisfy them over the safety of the system. Security concerns are captured in a
component-centric manner through existing SysML diagrams with only minimal
extensions. After the requirements captured are derived into security and
cryptographic mechanisms, security properties can be formally verified over
this design. To perform the latter, model transformation techniques are
implemented in the SysML-Sec toolchain in order to derive a ProVerif
specification from the SysML models. An automotive firmware flashing procedure
serves as a guiding example throughout our presentation.Comment: In Proceedings GraMSec 2014, arXiv:1404.163
Instruction-Level Abstraction (ILA): A Uniform Specification for System-on-Chip (SoC) Verification
Modern Systems-on-Chip (SoC) designs are increasingly heterogeneous and
contain specialized semi-programmable accelerators in addition to programmable
processors. In contrast to the pre-accelerator era, when the ISA played an
important role in verification by enabling a clean separation of concerns
between software and hardware, verification of these "accelerator-rich" SoCs
presents new challenges. From the perspective of hardware designers, there is a
lack of a common framework for the formal functional specification of
accelerator behavior. From the perspective of software developers, there exists
no unified framework for reasoning about software/hardware interactions of
programs that interact with accelerators. This paper addresses these challenges
by providing a formal specification and high-level abstraction for accelerator
functional behavior. It formalizes the concept of an Instruction Level
Abstraction (ILA), developed informally in our previous work, and shows its
application in modeling and verification of accelerators. This formal ILA
extends the familiar notion of instructions to accelerators and provides a
uniform, modular, and hierarchical abstraction for modeling software-visible
behavior of both accelerators and programmable processors. We demonstrate the
applicability of the ILA through several case studies of accelerators (for
image processing, machine learning, and cryptography), and a general-purpose
processor (RISC-V). We show how the ILA model facilitates equivalence checking
between two ILAs, and between an ILA and its hardware finite-state machine
(FSM) implementation. Further, this equivalence checking supports accelerator
upgrades using the notion of ILA compatibility, similar to processor upgrades
using ISA compatibility.Comment: 24 pages, 3 figures, 3 table
A Modeling Approach based on UML/MARTE for GPU Architecture
Nowadays, the High Performance Computing is part of the context of embedded
systems. Graphics Processing Units (GPUs) are more and more used in
acceleration of the most part of algorithms and applications. Over the past
years, not many efforts have been done to describe abstractions of applications
in relation to their target architectures. Thus, when developers need to
associate applications and GPUs, for example, they find difficulty and prefer
using API for these architectures. This paper presents a metamodel extension
for MARTE profile and a model for GPU architectures. The main goal is to
specify the task and data allocation in the memory hierarchy of these
architectures. The results show that this approach will help to generate code
for GPUs based on model transformations using Model Driven Engineering (MDE).Comment: Symposium en Architectures nouvelles de machines (SympA'14) (2011
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