The high energy consumption of electronic data processors, together with physical challenges limiting their further improvement, has triggered intensive interest in alternative computation paradigms. Here we focus on network-based biocomputation (NBC), a massively parallel approach where computational problems are encoded in planar networks implemented with nanoscale channels. These networks are explored by biological agents, such as biological molecular motor systems and bacteria, benefitting from their energy efficiency and availability in large numbers. We analyse and define the fundamental requirements that need to be fulfilled to scale up NBC computers to become a viable technology that can solve large NP-complete probleminstances fast...
Biomolecular computing (BMC) aims to capture the innumerable advantages that biological molecules ha...
Molecular computing is a discipline that aims at harnessing individual molecules at nanoscales for c...
In this chapter I have provided a brief and somewhat superficial survey of the specialized hardware ...
The high energy consumption of electronic data processors, together with physical challenges limitin...
Network-based biocomputation (NBC) is an alternative, parallel computation approach that can potenti...
Information processing by traditional, serial electronic processors consumes an ever-increasing part...
Exact cover is a non-deterministic polynomial time (NP)—complete problem that is central to optimiza...
Exact cover is a non-deterministic polynomial time (NP)-complete problem that is central to optimiza...
Although conventional computer technology made a huge leap forward in the past decade, a vast number...
Deficiencies in software or computer chips cause computers or smartphones to crash and allow hackers...
On-chip network-based computation, using biological agents, is a new hardware-embedded approach whic...
On-chip network-based computation, using biological agents, is a new hardware-embedded approach whic...
The combinatorial nature of many important mathematical problems, including nondeterministic-polynom...
Jäger B, Porrmann M, Rückert U. Bio-inspired massively parallel architectures for nanotechnologies. ...
Biocomputing (also known as molecular or cell computing) is a new interdisciplinary area of science ...
Biomolecular computing (BMC) aims to capture the innumerable advantages that biological molecules ha...
Molecular computing is a discipline that aims at harnessing individual molecules at nanoscales for c...
In this chapter I have provided a brief and somewhat superficial survey of the specialized hardware ...
The high energy consumption of electronic data processors, together with physical challenges limitin...
Network-based biocomputation (NBC) is an alternative, parallel computation approach that can potenti...
Information processing by traditional, serial electronic processors consumes an ever-increasing part...
Exact cover is a non-deterministic polynomial time (NP)—complete problem that is central to optimiza...
Exact cover is a non-deterministic polynomial time (NP)-complete problem that is central to optimiza...
Although conventional computer technology made a huge leap forward in the past decade, a vast number...
Deficiencies in software or computer chips cause computers or smartphones to crash and allow hackers...
On-chip network-based computation, using biological agents, is a new hardware-embedded approach whic...
On-chip network-based computation, using biological agents, is a new hardware-embedded approach whic...
The combinatorial nature of many important mathematical problems, including nondeterministic-polynom...
Jäger B, Porrmann M, Rückert U. Bio-inspired massively parallel architectures for nanotechnologies. ...
Biocomputing (also known as molecular or cell computing) is a new interdisciplinary area of science ...
Biomolecular computing (BMC) aims to capture the innumerable advantages that biological molecules ha...
Molecular computing is a discipline that aims at harnessing individual molecules at nanoscales for c...
In this chapter I have provided a brief and somewhat superficial survey of the specialized hardware ...