A computational view of market efficiency

Author(s)

Hasanhodzic, Jasmina; Lo, Andrew W.; Viola, Emanuele

Abstract

We study market efficiency from a computational viewpoint. Borrowing from theoretical computer science, we define a market to be efficient with respect to resources S (e.g., time, memory) if no strategy using resources S can make a profit. As a first step, we consider memory-m strategies whose action at time t depends only on the m previous observations at times t − m, … , t  − 1. We introduce and study a simple model of market evolution, where strategies impact the market by their decision to buy or sell. We show that the effect of optimal strategies using memory m can lead to ‘market conditions’ that were not present initially, such as (1) market spikes and (2) the possibility for a strategy using memory m′ > m to make a bigger profit than was initially possible. We suggest ours as a framework to rationalize the technological arms race of quantitative trading firms.

Description

August 31, 2009

Date issued

2011-06

URI

http://hdl.handle.net/1721.1/75357

Department

Sloan School of Management

Journal

Quantitative Finance

Publisher

Taylor & Francis

Citation

Hasanhodzic, Jasmina, Andrew W. Lo, and Emanuele Viola. “A Computational View of Market Efficiency.” Quantitative Finance 11.7 (2011): 1043–1050.

Version: Author's final manuscript

ISSN

1469-7688

1469-7696