6,211 research outputs found
Extending programs with debug-related features, with application to hardware development
The capacity and programmability of reconfigurable hardware such as FPGAs has
improved steadily over the years, but they do not readily provide any
mechanisms for monitoring or debugging running programs. Such mechanisms need
to be written into the program itself. This is done using ad hoc methods and
primitive tools when compared to CPU programming. This complicates the
programming and debugging of reconfigurable hardware. We introduce
Program-hosted Directability (PhD), the extension of programs to interpret
direction commands at runtime to enable debugging, monitoring and profiling.
Normally in hardware development such features are fixed at compile time. We
present a language of directing commands, specify its semantics in terms of a
simple controller that is embedded with programs, and implement a prototype for
directing network programs running in hardware. We show that this approach
affords significant flexibility with low impact on hardware utilisation and
performance.This work has received funding from the EPSRC NaaS grant EP/K034723/1, European Union's Horizon 2020 research and innovation programme 2014-2018 under the SSICLOPS (grant agreement No. 644866), the Leverhulme Trust Early Career Fellowship ECF-2016-289 and the Newton Trust
Open-TEE - An Open Virtual Trusted Execution Environment
Hardware-based Trusted Execution Environments (TEEs) are widely deployed in
mobile devices. Yet their use has been limited primarily to applications
developed by the device vendors. Recent standardization of TEE interfaces by
GlobalPlatform (GP) promises to partially address this problem by enabling
GP-compliant trusted applications to run on TEEs from different vendors.
Nevertheless ordinary developers wishing to develop trusted applications face
significant challenges. Access to hardware TEE interfaces are difficult to
obtain without support from vendors. Tools and software needed to develop and
debug trusted applications may be expensive or non-existent.
In this paper, we describe Open-TEE, a virtual, hardware-independent TEE
implemented in software. Open-TEE conforms to GP specifications. It allows
developers to develop and debug trusted applications with the same tools they
use for developing software in general. Once a trusted application is fully
debugged, it can be compiled for any actual hardware TEE. Through performance
measurements and a user study we demonstrate that Open-TEE is efficient and
easy to use. We have made Open- TEE freely available as open source.Comment: Author's version of article to appear in 14th IEEE International
Conference on Trust, Security and Privacy in Computing and Communications,
TrustCom 2015, Helsinki, Finland, August 20-22, 201
Recommended from our members
Steps to an advanced Ada programming environment
Conceptual simplicity, tight coupling of tools, and effective support of host-target software development will characterize advanced Ada programming support environments. Several important principles have been demonstrated in the Arcturus system, including template-assisted Ada editing, command completion using Ada as a command language, and combining the advantages of interpretation and compliation. Other principles, relating to analysis, testing, and debugging of concurrent Ada programs, have appeared in other contexts. This paper discusses several of these topics, considers how they can be integrated, and argues for their inclusion in an environment appropriate for software development in the late 1980's
Pervasive computing at tableside : a wireless web-based ordering system
Purpose – The purpose of this paper is to introduce a wireless web-based ordering system called iMenu in the restaurant industry. Design/methodology/approach – By using wireless devices such as personal digital assistants and WebPads, this system realizes the paradigm of pervasive computing at tableside. Detailed system requirements, design, implementation and evaluation of iMenu are presented.Findings – The evaluation of iMenu shows it explicitly increases productivity of restaurant staff. It also has other desirable features such as integration, interoperation and scalability. Compared to traditional restaurant ordering process, by using this system customers get faster and better services, restaurant staff cooperate more efficiently with less working mistakes, and enterprise owners thus receive more business profits. Originality/value – While many researchers have explored using wireless web-based information systems in different industries, this paper presents a system that employs wireless multi-tiered web-based architecture to build pervasive computing systems. Instead of discussing theoretical issues on pervasive computing, we focus on practical issues of developing a real system, such as choosing of web-based architecture, design of input methods in small screens, and response time in wireless web-based systems.<br /
- …