Skip to main content

Peter Scholl

From July 2017, I will be a postdoc in the Cryptography Group at Aarhus University with Claudio Orlandi.

Background

I am a postdoctoral researcher in the Cryptography group. My research interests are multi-party computation (MPC), particularly constructing more efficient protocols with improved security properties, as well as implementation and applications of MPC.

In November 2015 I completed my PhD, titled Design and Implementation of Secure Multi-Party Computation, supervised by Nigel Smart.

Contact

Peter Scholl
Department of Computer Science
University of Bristol
Merchant Venturers Building, Room 3.44
Woodland Road
Bristol
BS8 1UB
United Kingdom

E-mail: [forename][dot][surname] at cs.au.dk

Preprints

Publications

  1. Faster Secure Multi-Party Computation of AES and DES Using Lookup Tables
    Marcel Keller and Emmanuela Orsini and Dragos Rotaru and Peter Scholl and Eduardo Soria-Vazquez and Srinivas Vivek
    ACNS 2017
    (eprint)
  2. Actively Secure 1-out-of-N OT Extension with Application to Private Set Intersection
    Michele Orrù and Emmanuela Orsini and Peter Scholl
    CT-RSA 2017
    (eprint)
  3. Efficient Secure Multiparty Computation with Identifiable Abort
    Carsten Baum and Emmanuela Orsini and Peter Scholl
    TCC 2016-b
    (eprint)
  4. MPC-Friendly Symmetric Key Primitives
    Lorenzo Grassi and Christian Rechberger and Dragos Rotaru and Peter Scholl and Nigel P. Smart
    ACM CCS 2016
    (eprint)
  5. MASCOT: Faster Malicious Arithmetic Secure Computation with Oblivious Transfer
    Marcel Keller and Emmanuela Orsini and Peter Scholl
    ACM CCS 2016
    (eprint)
  6. A Unified Approach to MPC with Preprocessing using OT
    Tore Kasper Frederiksen and Marcel Keller and Emmanuela Orsini and Peter Scholl
    Asiacrypt 2015
    (eprint)
  7. Actively Secure OT Extension with Optimal Overhead
    Emmanuela Orsini and Marcel Keller and Peter Scholl
    CRYPTO 2015
    (eprint)
  8. Efficient, Oblivious Data Structures for MPC
    Marcel Keller and Peter Scholl
    Asiacrypt 2014
    (eprint)
  9. An architecture for practical actively secure MPC with dishonest majority
    Marcel Keller and Peter Scholl and Nigel P. Smart
    ACM CCS 2013
    (eprint)
  10. Practical Covertly Secure MPC for Dishonest Majority - or: Breaking the SPDZ Limits
    Ivan Damgard and Marcel Keller and Enrique Larraia and Valerio Pastro and Peter Scholl and Nigel P. Smart
    ESORICS 2013 (Best Paper Award)
    (eprint | slides)
  11. Improved Key Generation For Gentry's Fully Homomorphic Encryption Scheme
    Peter Scholl and Nigel P. Smart
    IMACC 2011
    (eprint | slides)