Z. Ying (US) University of Texas at Austin

University of Texas at Austin

Author Of 3 Presentations

 Conference Calendar
(OMND) Optical Micro / Nano Resonators and Devices

TuC1.2 - FULLY INTEGRATED 20 GBIT/S SILICON OPTICAL COMPUTING CHIP FOR 4-BIT FULL ADDERS

Presentation Type
Contributed Submission
Authors
Date
10/01/2019
Time
08:30 AM - 09:45 AM
Room
El Mirador C East
Duration
15 Minutes
Lecture Time
09:00 AM - 09:15 AM

Abstract

Abstract

We demonstrate a 4-bit optical full adder in silicon photonics using microdisk modulators operating over 20 Gbit/s, which owns advantages of high speed and low power consumption when compared with electronic counterparts. It paves the way to future high-speed digital optical computing.

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(OMND) Optical Micro / Nano Resonators and Devices

TuC1.3 - MULTI-OPERAND DIRECTED LOGIC-BASED ELECTRO-OPTIC GATES FOR ULTRACOMPACT OPTICAL COMPUTING

Presentation Type
Contributed Submission
Authors
Date
10/01/2019
Time
08:30 AM - 09:45 AM
Room
El Mirador C East
Duration
15 Minutes
Lecture Time
09:15 AM - 09:30 AM

Abstract

Abstract

We propose and experimentally demonstrate a multi-operand electro-optic logic gate that allows a single gate to be controlled by several inputs simultaneously. A thorough analysis of its performance is fully implemented, which shows its potential to outperform the traditional logic gate in many aspects.

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(PIP) Photonic Integration and Packaging

WP11 - POWER AND ACCURACY CO-OPTIMIZATION OF AN OPTICAL FULL ADDER VIA OPTIMIZATION ALGORITHMS

Presentation Type
Contributed Submission
Authors
Date
10/02/2019
Time
06:00 PM - 08:00 PM
Room
El Mirador B/C
Lecture Time
06:00 PM - 06:00 PM

Abstract

Abstract

In this paper, we propose methods to reduce modulation depth requirements of optical modulators in an optical full adder while still maintain the accuracy by optimizing parameters using algorithms. Results show that it is capable of reducing power consumption effectively.

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Presenter Of 2 Presentations

 Conference Calendar
(OMND) Optical Micro / Nano Resonators and Devices

TuC1.2 - FULLY INTEGRATED 20 GBIT/S SILICON OPTICAL COMPUTING CHIP FOR 4-BIT FULL ADDERS

Presentation Type
Contributed Submission
Authors
Date
10/01/2019
Time
08:30 AM - 09:45 AM
Room
El Mirador C East
Duration
15 Minutes
Lecture Time
09:00 AM - 09:15 AM

Abstract

Abstract

We demonstrate a 4-bit optical full adder in silicon photonics using microdisk modulators operating over 20 Gbit/s, which owns advantages of high speed and low power consumption when compared with electronic counterparts. It paves the way to future high-speed digital optical computing.

Collapse
(OMND) Optical Micro / Nano Resonators and Devices

TuC1.3 - MULTI-OPERAND DIRECTED LOGIC-BASED ELECTRO-OPTIC GATES FOR ULTRACOMPACT OPTICAL COMPUTING

Presentation Type
Contributed Submission
Authors
Date
10/01/2019
Time
08:30 AM - 09:45 AM
Room
El Mirador C East
Duration
15 Minutes
Lecture Time
09:15 AM - 09:30 AM

Abstract

Abstract

We propose and experimentally demonstrate a multi-operand electro-optic logic gate that allows a single gate to be controlled by several inputs simultaneously. A thorough analysis of its performance is fully implemented, which shows its potential to outperform the traditional logic gate in many aspects.

Collapse