IBM looks to DNA to sustain Moore's Law

Low concentrations of triangular DNA origami bind to wide lines on a lithographically patterned surface. Credit: PRNewsFoto/IBM.

As chip geometries get infinitesimally small, IBM is looking to DNA to make the manufacture of future chips feasible. On Monday, IBM researchers and collaborator Paul W.K. Rothemund, of the California Institute of Technology, announced an advancement of a method to arrange DNA origami structures on surfaces compatible with today's semiconductor manufacturing equipment.  The cost involved in shrinking (chip) features to improve performance is a limiting factor in keeping pace with Moore's Law and a concern across the semiconductor industry,  said Spike Narayan, a manager in the Science & Technology division of IBM Research, in a statement. Moore's Law, named after Intel co-founder Gordon Moore, states that the number of transistors that can be placed on an integrated circuit doubles roughly every two years. For more than four decades, chip manufacturers have been able to consistently shrink chip geometries, allowing Moore's Law to remain on track.