M. Pedro scite author profile

We report on the detailed electrical investigation of all-inkjet-printed thin-film transistor (TFT) arrays focusing on TFT failures and their origins. The TFT arrays were manufactured on flexible polymer substrates in ambient condition without the need for cleanroom environment or inert atmosphere and at a maximum temperature of 150 °C. Alternative manufacturing processes for electronic devices such as inkjet printing suffer from lower accuracy compared to traditional microelectronic manufacturing methods. Furthermore, usually printing methods do not allow the manufacturing of electronic devices with high yield (high number of functional devices). In general, the manufacturing yield is much lower compared to the established conventional manufacturing methods based on lithography. Thus, the focus of this contribution is set on a comprehensive analysis of defective TFTs printed by inkjet technology. Based on root cause analysis, we present the defects by developing failure categories and discuss the reasons for the defects. This procedure identifies failure origins and allows the optimization of the manufacturing resulting finally to a yield improvement.

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A flexible characterization methodology of RRAM: Application to the modeling of the conductivity changes as synaptic weight updates

Pedro

Martín-Martínez

Rodrı́guez

et al. 2019

Solid-State Electronics

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In this work, an automatic and flexible measurement setup, which allows a massive electrical characterization of single RRAM devices with pulsed voltages, is presented. The evaluation of the G-V maps under single-pulse test-schemes is introduced as an example of application of the proposed methodology, in particular for neuromorphic engineering, where the fine analog control of the synaptic device conductivity state is required, by inducing small changes in each learning iteration. To describe the obtained data, a timeindependent compact model for memristive devices is used. The fitting parameters statistical distributions are further studied.

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Tuning the conductivity of resistive switching devices for electronic synapses

Pedro

Martín-Martínez

González

et al. 2017

Microelectronic Engineering

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Analysis of resistive switching processes in TiN/Ti/HfO2/W devices to mimic electronic synapses in neuromorphic circuits

González-Cordero

Pedro

Martín-Martínez

et al. 2019

Solid-State Electronics

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Self-Organizing Neural Networks Based on OxRAM Devices under a Fully Unsupervised Training Scheme

et al. 2019

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A fully-unsupervised learning algorithm for reaching self-organization in neuromorphic architectures is provided in this work. We experimentally demonstrate spike-timing dependent plasticity (STDP) in Oxide-based Resistive Random Access Memory (OxRAM) devices, and propose a set of waveforms in order to induce symmetric conductivity changes. An empirical model is used to describe the observed plasticity. A neuromorphic system based on the tested devices is simulated, where the developed learning algorithm is tested, involving STDP as the local learning rule. The design of the system and learning scheme permits to concatenate multiple neuromorphic layers, where autonomous hierarchical computing can be performed.

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M. Pedro

All-inkjet-printed thin-film transistors: manufacturing process reliability by root cause analysis

A flexible characterization methodology of RRAM: Application to the modeling of the conductivity changes as synaptic weight updates

Tuning the conductivity of resistive switching devices for electronic synapses

Analysis of resistive switching processes in TiN/Ti/HfO2/W devices to mimic electronic synapses in neuromorphic circuits

Self-Organizing Neural Networks Based on OxRAM Devices under a Fully Unsupervised Training Scheme

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