Designing Politics: the limits of design

What are the limits of design in addressing the political and/or when has design not been enough? A collection of thought pieces written by Theatrum Mundi’s Designing Politics Working Group following a workshop at the Villa Vassilieff in Paris on 25th May 2016. This working group is supported by the Global Cities Chair at the Fondation Maison des Sciences de l’Homme in Paris

Toward Fault-Tolerant Applications on Reconfigurable Systems-on-Chip

L'abstract è presente nell'allegato / the abstract is in the attachmen

Self-healing concepts involving fine-grained redundancy for electronic systems

The start of the digital revolution came through the metal-oxide-semiconductor field-effect transistor (MOSFET) in 1959 followed by massive integration onto a silicon die by means of constant down scaling of individual components. Digital systems for certain applications require fault-tolerance against faults caused by temporary or permanent influence. The most widely used technique is triple module redundancy (TMR) in conjunction with a majority voter, which is regarded as a passive fault mitigation strategy. Design by functional resilience has been applied to circuit structures for increased fault-tolerance and towards self-diagnostic triggered self-healing. The focus of this thesis is therefore to develop new design strategies for fault detection and mitigation within transistor, gate and cell design levels. The research described in this thesis makes three contributions. The first contribution is based on adding fine-grained transistor level redundancy to logic gates in order to accomplish stuck-at fault-tolerance. The objective is to realise maximum fault-masking for a logic gate with minimal added redundant transistors. In the case of non-maskable stuck-at faults, the gate structure generates an intrinsic indication signal that is suitable for autonomous self-healing functions. As a result, logic circuitry utilising this design is now able to differentiate between gate faults and faults occurring in inter-gate connections. This distinction between fault-types can then be used for triggering selective self-healing responses. The second contribution is a logic matrix element which applies the three core redundancy concepts of spatial- temporal- and data-redundancy. This logic structure is composed of quad-modular redundant structures and is capable of selective fault-masking and localisation depending of fault-type at the cell level, which is referred to as a spatiotemporal quadded logic cell (QLC) structure. This QLC structure has the capability of cellular self-healing. Through the combination of fault-tolerant and masking logic features the QLC is designed with a fault-behaviour that is equal to existing quadded logic designs using only 33.3% of the equivalent transistor resources. The inherent self-diagnosing feature of QLC is capable of identifying individual faulty cells and can trigger self-healing features. The final contribution is focused on the conversion of finite state machines (FSM) into memory to achieve better state transition timing, minimal memory utilisation and fault protection compared to common FSM designs. A novel implementation based on content-addressable type memory (CAM) is used to achieve this. The FSM is further enhanced by creating the design out of logic gates of the first contribution by achieving stuck-at fault resilience. Applying cross-data parity checking, the FSM becomes equipped with single bit fault detection and correction

Urban food strategies in Central and Eastern Europe: what's specific and what's at stake?

Integrating a larger set of instruments into Rural Development Programmes implied an increasing focus on monitoring and evaluation. Against the highly diversified experience with regard to implementation of policy instruments the Common Monitoring and Evaluation Framework has been set up by the EU Commission as a strategic and streamlined method of evaluating programmes’ impacts. Its indicator-based approach mainly reflects the concept of a linear, measure-based intervention logic that falls short of the true nature of RDP operation and impact capacity on rural changes. Besides the different phases of the policy process, i.e. policy design, delivery and evaluation, the regional context with its specific set of challenges and opportunities seems critical to the understanding and improvement of programme performance. In particular the role of local actors can hardly be grasped by quantitative indicators alone, but has to be addressed by assessing processes of social innovation. This shift in the evaluation focus underpins the need to take account of regional implementation specificities and processes of social innovation as decisive elements for programme performance.

Characterization of Interconnection Delays in FPGAS Due to Single Event Upsets and Mitigation

RÉSUMÉ L’utilisation incessante de composants électroniques à géométrie toujours plus faible a engendré de nouveaux défis au fil des ans. Par exemple, des semi-conducteurs à mémoire et à microprocesseur plus avancés sont utilisés dans les systèmes avioniques qui présentent une susceptibilité importante aux phénomènes de rayonnement cosmique. L'une des principales implications des rayons cosmiques, observée principalement dans les satellites en orbite, est l'effet d'événements singuliers (SEE). Le rayonnement atmosphérique suscite plusieurs préoccupations concernant la sécurité et la fiabilité de l'équipement avionique, en particulier pour les systèmes qui impliquent des réseaux de portes programmables (FPGA). Les FPGA à base de cellules de mémoire statique (SRAM) présentent une solution attrayante pour mettre en oeuvre des systèmes complexes dans le domaine de l’avionique. Les expériences de rayonnement réalisées sur les FPGA ont dévoilé la vulnérabilité de ces dispositifs contre un type particulier de SEE, à savoir, les événements singuliers de changement d’état (SEU). Un SEU est considérée comme le changement de l'état d'un élément bistable (c'est-à-dire, un bit-flip) dû à l'effet d'un ion, d'un proton ou d’un neutron énergétique. Cet effet est non destructif et peut être corrigé en réécrivant la partie de la SRAM affectée. Les changements de délai (DC) potentiels dus aux SEU affectant la mémoire de configuration de routage ont été récemment confirmés. Un des objectifs de cette thèse consiste à caractériser plus précisément les DC dans les FPGA causés par les SEU. Les DC observés expérimentalement sont présentés et la modélisation au niveau circuit de ces DC est proposée. Les circuits impliqués dans la propagation du délai sont validés en effectuant une modélisation précise des blocs internes à l'intérieur du FPGA et en exécutant des simulations. Les résultats montrent l’origine des DC qui sont en accord avec les mesures expérimentales de délais. Les modèles proposés au niveau circuit sont, aux meilleures de notre connaissance, le premier travail qui confirme et explique les délais combinatoires dans les FPGA. La conception d'un circuit moniteur de délai pour la détection des DC a été faite dans la deuxième partie de cette thèse. Ce moniteur permet de détecter un changement de délai sur les sections critiques du circuit et de prévenir les pannes de synchronisation engendrées par les SEU sans utiliser la redondance modulaire triple (TMR).----------ABSTRACT The unrelenting demand for electronic components with ever diminishing feature size have emerged new challenges over the years. Among them, more advanced memory and microprocessor semiconductors are being used in avionic systems that exhibit a substantial susceptibility to cosmic radiation phenomena. One of the main implications of cosmic rays, which was primarily observed in orbiting satellites, is single-event effect (SEE). Atmospheric radiation causes several concerns regarding the safety and reliability of avionics equipment, particularly for systems that involve field programmable gate arrays (FPGA). SRAM-based FPGAs, as an attractive solution to implement systems in aeronautic sector, are very susceptible to SEEs in particular Single Event Upset (SEU). An SEU is considered as the change of the state of a bistable element (i.e., bit-flip) due to the effect of an energetic ion or proton. This effect is non-destructive and may be fixed by rewriting the affected part. Sensitivity evaluation of SRAM-based FPGAs to a physical impact such as potential delay changes (DC) has not been addressed thus far in the literature. DCs induced by SEU can affect the functionality of the logic circuits by disturbing the race condition on critical paths. The objective of this thesis is toward the characterization of DCs in SRAM-based FPGAs due to transient ionizing radiation. The DCs observed experimentally are presented and the circuit-level modeling of those DCs is proposed. Circuits involved in delay propagation are reverse-engineered by performing precise modeling of internal blocks inside the FPGA and executing simulations. The results show the root cause of DCs that are in good agreement with experimental delay measurements. The proposed circuit level models are, to the best of our knowledge, the first work on modeling of combinational delays in FPGAs.In addition, the design of a delay monitor circuit for DC detection is investigated in the second part of this thesis. This monitor allowed to show experimentally cumulative DCs on interconnects in FPGA. To this end, by avoiding the use of triple modular redundancy (TMR), a mitigation technique for DCs is proposed and the system downtime is minimized. A method is also proposed to decrease the clock frequency after DC detection without interrupting the process

Study of Radiation Effects on 28nm UTBB FDSOI Technology

With the evolution of modern Complementary Metal-Oxide-Semiconductor (CMOS) technology, transistor feature size has been scaled down to nanometers. The scaling has resulted in tremendous advantages to the integrated circuits (ICs), such as higher speed, smaller circuit size, and lower operating voltage. However, it also creates some reliability concerns. In particular, small device dimensions and low operating voltages have caused nanoscale ICs to become highly sensitive to operational disturbances, such as signal coupling, supply and substrate noise, and single event effects (SEEs) caused by ionizing particles, like cosmic neutrons and alpha particles. SEEs found in ICs can introduce transient pulses in circuit nodes or data upsets in storage cells. In well-designed ICs, SEEs appear to be the most troublesome in a space environment or at high altitudes in terrestrial environment. Techniques from the manufacturing process level up to the system design level have been developed to mitigate radiation effects. Among them, silicon-on-insulator (SOI) technologies have proven to be an effective approach to reduce single-event effects in ICs. So far, 28nm ultra-thin body and buried oxide (UTBB) Fully Depleted SOI (FDSOI) by STMicroelectronics is one of the most advanced SOI technologies in commercial applications. Its resilience to radiation effects has not been fully explored and it is of prevalent interest in the radiation effects community. Therefore, two test chips, namely ST1 and AR0, were designed and tested to study SEEs in logic circuits fabricated with this technology. The ST1 test chip was designed to evaluate SET pulse widths in logic gates. Three kinds of the on-chip pulse-width measurement detectors, namely the Vernier detector, the Pulse Capture detector and the Pulse Filter detector, were implemented in the ST1 chip. Moreover, a Circuit for Radiation Effects Self-Test (CREST) chain with combinational logic was designed to study both SET and SEU effects. The ST1 chip was tested using a heavy ion irradiation beam source in Radiation Effects Facility (RADEF), Finland. The experiment results showed that the cross-section of the 28nm UTBB-FDSOI technology is two orders lower than its bulk competitors. Laser tests were also applied to this chip to research the pulse distortion effects and the relationship between SET, SEU and the clock frequency. Total Ionizing Dose experiments were carried out at the University of Saskatchewan and European Space Agency with Co-60 gammacell radiation sources. The test results showed the devices implemented in the 28nm UTBB-FDSOI technology can maintain its functionality up to 1 Mrad(Si). In the AR0 chip, we designed five ARM Cortex-M0 cores with different logic protection levels to investigate the performance of approximate logic protecting methods. There are three custom-designed SRAM blocks in the test chip, which can also be used to measure the SEU rate. From the simulation result, we concluded that the approximate logic methodology can protect the digital logic efficiently. This research comprehensively evaluates the radiation effects in the 28nm UTBB-FDSOI technology, which provides the baseline for later radiation-hardened system designs in this technology

Disasters, tourism and mobility, the case of Japan earthquake

It is not uncommon to note that during emergencies or natural disasters a number of socio-psychological triggers come to the forefront so as to help the public the event and place it in a comprehensible context. Without these socio-psychological triggers the public would be left not only in an anomic state, but social disintegration would begin to set in. One way that we begin to sort out and make sense of these negative tragedies is through the twin social mechanisms of nationalism and consumerism. During moments when societies must face potential exterminations, survival may occur through the strengthening of individuality and group identity. These two social phenomena act as antidotes to the tragedy and allows for group survival. Thus after a tragedy such as a tsunami or earthquake, national (or group) pride permits the social healing process to begin. It is against this backdrop that we analyze the media coverage and the reaction of the Buenos Aires Japanese community to the earthquake and tsunami that decimated Japan in 2011 and the dangers that ensued from the damage to the Fukuyima reactor. Although this work is about one small community within the Japanese Diaspora, it serves its social psychological insights are not confined to this community but rather should be replicable throughout the world

FinBook: literary content as digital commodity

This short essay explains the significance of the FinBook intervention, and invites the reader to participate. We have associated each chapter within this book with a financial robot (FinBot), and created a market whereby book content will be traded with financial securities. As human labour increasingly consists of unstable and uncertain work practices and as algorithms replace people on the virtual trading floors of the worlds markets, we see members of society taking advantage of FinBots to invest and make extra funds. Bots of all kinds are making financial decisions for us, searching online on our behalf to help us invest, to consume products and services. Our contribution to this compilation is to turn the collection of chapters in this book into a dynamic investment portfolio, and thereby play out what might happen to the process of buying and consuming literature in the not-so-distant future. By attaching identities (through QR codes) to each chapter, we create a market in which the chapter can ‘perform’. Our FinBots will trade based on features extracted from the authors’ words in this book: the political, ethical and cultural values embedded in the work, and the extent to which the FinBots share authors’ concerns; and the performance of chapters amongst those human and non-human actors that make up the market, and readership. In short, the FinBook model turns our work and the work of our co-authors into an investment portfolio, mediated by the market and the attention of readers. By creating a digital economy specifically around the content of online texts, our chapter and the FinBook platform aims to challenge the reader to consider how their personal values align them with individual articles, and how these become contested as they perform different value judgements about the financial performance of each chapter and the book as a whole. At the same time, by introducing ‘autonomous’ trading bots, we also explore the different ‘network’ affordances that differ between paper based books that’s scarcity is developed through analogue form, and digital forms of books whose uniqueness is reached through encryption. We thereby speak to wider questions about the conditions of an aggressive market in which algorithms subject cultural and intellectual items – books – to economic parameters, and the increasing ubiquity of data bots as actors in our social, political, economic and cultural lives. We understand that our marketization of literature may be an uncomfortable juxtaposition against the conventionally-imagined way a book is created, enjoyed and shared: it is intended to be

Sensitivity analysis in a scoping review on police accountability : assessing the feasibility of reporting criteria in mixed studies reviews

In this paper, we report on the findings of a sensitivity analysis that was carried out within a previously conducted scoping review, hoping to contribute to the ongoing debate about how to assess the quality of research in mixed methods reviews. Previous sensitivity analyses mainly concluded that the exclusion of inadequately reported or lower quality studies did not have a significant effect on the results of the synthesis. In this study, we conducted a sensitivity analysis on the basis of reporting criteria with the aims of analysing its impact on the synthesis results and assessing its feasibility. Contrary to some previous studies, our analysis showed that the exclusion of inadequately reported studies had an impact on the results of the thematic synthesis. Initially, we also sought to propose a refinement of reporting criteria based on the literature and our own experiences. In this way, we aimed to facilitate the assessment of reporting criteria and enhance its consistency. However, based on the results of our sensitivity analysis, we opted not to make such a refinement since many publications included in this analysis did not sufficiently report on the methodology. As such, a refinement would not be useful considering that researchers would be unable to assess these (sub-)criteria