Property:Reference group
From Thermodynamics of Computation
This is a property of type Text.
It can be set to the following values:
- Artificial Biological Computation
- Chemical Reaction Networks
- Computer Science Engineering to Address Energy Costs
- Computer Science Theory
- General Non-equilibrium Statistical Physics
- Logically Reversible Computing
- Naturally Occurring Biological Computation
- Quantum Thermodynamics and Information Processing
- Review Articles and Books
- Stochastic Thermodynamics
- Thermodynamics of Neurobiology
- Thermodynamics of Single Cells
- Tutorials
I
M
Artificial Biological Computation +
D
T
Artificial Biological Computation +
P
Artificial Biological Computation +
T
Artificial Biological Computation +
C
Cooperative multicomponent self-assembly of nucleic acid structures for the activation of DNAzyme cascades: A paradigm for DNA sensors and aptasensors +
Artificial Biological Computation +
T
Artificial Biological Computation +
D
Artificial Biological Computation +
M
Artificial Biological Computation +
L
Artificial Biological Computation +
P
M
Artificial Biological Computation +
E
Artificial Biological Computation +
B
Artificial Biological Computation +
F
Artificial Biological Computation +
D
Artificial Biological Computation +
E
Artificial Biological Computation +
A
Artificial Biological Computation +
P
Artificial Biological Computation +
M
Artificial Biological Computation +
V
Artificial Biological Computation +
C
Artificial Biological Computation +
Artificial Biological Computation +
L
Artificial Biological Computation +
V
Artificial Biological Computation +
E
Artificial Biological Computation +
B
Artificial Biological Computation +
A
Artificial Biological Computation +
S
Artificial Biological Computation +
C
Artificial Biological Computation +
E
Artificial Biological Computation +
G
Genetic screens and selections for small molecules based on a synthetic riboswitch that activates protein translation +
Artificial Biological Computation +
A
Artificial Biological Computation +
C
Artificial Biological Computation +
E
Artificial Biological Computation +
Artificial Biological Computation +
D
S
A
Artificial Biological Computation +
C
Artificial Biological Computation +
T
Taming the complexity of biochemical models through bisimulation and collapsing: Theory and practice +
Artificial Biological Computation +
D
Artificial Biological Computation +
A
Artificial Biological Computation +
G
General peroxidase activity of G-quadruplex-hemin complexes and its application in ligand screening +
Artificial Biological Computation +
P
A
Artificial Biological Computation +
C
U
S
T
A
Chemical Reaction Networks +
D
Chemical Reaction Networks +
C
Chemical Reaction Networks +
T
L
Chemical Reaction Networks +
T
The topology of energy hypersurfaces III. The fundamental group of reaction mechanisms on potential energy hypersurfaces +
Chemical Reaction Networks +
A
Chemical Reaction Networks +
C
Chemical Reaction Networks +
S
Chemical Reaction Networks +
P
Chemical Reaction Networks +
G
Chemical Reaction Networks +
A
Chemical Reaction Networks +
P
Chemical Reaction Networks +
D
Does replication‐induced transcription regulate synthesis of the myriad low copy number proteins of Escherichia coli? +
Chemical Reaction Networks +
E
Chemical Reaction Networks +
T
Chemical Reaction Networks +
S
Chemical Reaction Networks +
F
Chemical Reaction Networks +
P
Chemical Reaction Networks +
R
M
Chemical Reaction Networks +
R
Chemical Reaction Networks +
C
Chemical Reaction Networks +
T
Chemical Reaction Networks +
D
Chemical Reaction Networks +
Chemical Reaction Networks +
A
An efficient graph theory based method to identify every minimal reaction set in a metabolic network +
Chemical Reaction Networks +
F
Chemical Reaction Networks +
A
Chemical Reaction Networks +
O
On a hypothetical generational relationship between HCN and constituents of the reductive citric acid cycle +
Chemical Reaction Networks +
S
Chemical Reaction Networks +
A
Chemical Reaction Networks +
R
Chemical Reaction Networks +
P
Chemical Reaction Networks +
M
Chemical Reaction Networks +
C
Chemical Reaction Networks +
Chemical Reaction Networks +
R
Chemical Reaction Networks +
S
Chemical Reaction Networks +
Chemical Reaction Networks +
A
Chemical Reaction Networks +
R
Chemical Reaction Networks +
P
Chemical Reaction Networks +
T
Chemical Reaction Networks +
A
Chemical Reaction Networks +
F
Chemical Reaction Networks +
C
Chemical Reaction Networks +
A
Chemical Reaction Networks +
Chemical Reaction Networks +
G
Chemical Reaction Networks +
O
On the Relation between Gradient Flows and the Large-Deviation Principle, with Applications to Markov Chains and Diffusion +
Chemical Reaction Networks +
S
Chemical Reaction Networks +
Z
Chemical Reaction Networks +
D
Chemical Reaction Networks +
O
Chemical Reaction Networks +
F
Chemical Reaction Networks +
A
An examination of the role of autocatalytic cycles in the chemistry of proposed primordial reactions +
Chemical Reaction Networks +
N
Chemical Reaction Networks +
S
Chemical Reaction Networks +
C
Chemical Reaction Networks +
F
T
H
S
A
S
A
T
E
T
A
S
A
T
N
S
K
F
C
E
F
T
F
A
E
G
A
Q
A
G
F
S
P
K
P
E
C
T
E
K
T
S
A
E
N
R
Computer Science Engineering to Address Energy Costs +
E
Computer Science Engineering to Address Energy Costs +
U
Computer Science Engineering to Address Energy Costs +
P
Computer Science Engineering to Address Energy Costs +
T
Computer Science Engineering to Address Energy Costs +
E
Computer Science Engineering to Address Energy Costs +
A
Computer Science Engineering to Address Energy Costs +
A 32-bit powerPC system-on-a-chip with support for dynamic voltage scaling and dynamic frequency scaling +
Computer Science Engineering to Address Energy Costs +
Computer Science Engineering to Address Energy Costs +
C
Computer Science Engineering to Address Energy Costs +
N
Computer Science Engineering to Address Energy Costs +
E
Computer Science Engineering to Address Energy Costs +
A
Computer Science Engineering to Address Energy Costs +
I
S
Computer Science Engineering to Address Energy Costs +
C
Computer Science Engineering to Address Energy Costs +
T
C
Computer Science Engineering to Address Energy Costs +
T
Computer Science Engineering to Address Energy Costs +
N
Computer Science Engineering to Address Energy Costs +
U
Ueber die bewegende Kraft der Wärme und die Gesetze, welche sich daraus für die Wärmelehre selbst ableiten lassen +
Computer Science Engineering to Address Energy Costs +
C
Computer Science Engineering to Address Energy Costs +
G
Computer Science Engineering to Address Energy Costs +
P
Computer Science Engineering to Address Energy Costs +
E
Computer Science Engineering to Address Energy Costs +
B
Computer Science Engineering to Address Energy Costs +
S
Computer Science Engineering to Address Energy Costs +
B
Computer Science Engineering to Address Energy Costs +
P
Computer Science Engineering to Address Energy Costs +
A
Computer Science Engineering to Address Energy Costs +
U
Computer Science Engineering to Address Energy Costs +
T
Computer Science Engineering to Address Energy Costs +
L
Computer Science Engineering to Address Energy Costs +
M
Computer Science Engineering to Address Energy Costs +
R
S
Computer Science Engineering to Address Energy Costs +
Computer Science Engineering to Address Energy Costs +
A
Computer Science Engineering to Address Energy Costs +
P
Computer Science Engineering to Address Energy Costs +
A
Computer Science Engineering to Address Energy Costs +
Computer Science Engineering to Address Energy Costs +
S
Computer Science Engineering to Address Energy Costs +
O
Computer Science Engineering to Address Energy Costs +
D
Computer Science Engineering to Address Energy Costs +
T
Computer Science Engineering to Address Energy Costs +
L
Computer Science Engineering to Address Energy Costs +
E
Computer Science Engineering to Address Energy Costs +
R
Computer Science Engineering to Address Energy Costs +
O
Computer Science Engineering to Address Energy Costs +
S
Computer Science Engineering to Address Energy Costs +
E
Computer Science Engineering to Address Energy Costs +
D
Computer Science Engineering to Address Energy Costs +
O
Computer Science Engineering to Address Energy Costs +
D
Computer Science Engineering to Address Energy Costs +
N
Computer Science Engineering to Address Energy Costs +
A
Computer Science Engineering to Address Energy Costs +
Computer Science Engineering to Address Energy Costs +
T
Computer Science Engineering to Address Energy Costs +
S
Computer Science Engineering to Address Energy Costs +
N
Computer Science Engineering to Address Energy Costs +
P
Computer Science Engineering to Address Energy Costs +
S
Computer Science Engineering to Address Energy Costs +
F
Computer Science Engineering to Address Energy Costs +
L
Computer Science Engineering to Address Energy Costs +
I
Computer Science Engineering to Address Energy Costs +
L
Computer Science Engineering to Address Energy Costs +
T
Computer Science Engineering to Address Energy Costs +
S
Computer Science Engineering to Address Energy Costs +
E
Computer Science Engineering to Address Energy Costs +
T
Computer Science Engineering to Address Energy Costs +
P
Computer Science Engineering to Address Energy Costs +
Computer Science Engineering to Address Energy Costs +
T
Tolerating Soft Errors in Processor Cores Using CLEAR (Cross-Layer Exploration for Architecting Resilience) +
Computer Science Engineering to Address Energy Costs +
E
Computer Science Engineering to Address Energy Costs +
R
Computer Science Engineering to Address Energy Costs +
C
Computer Science Engineering to Address Energy Costs +
A
A stochastic-based FPGA controller for an induction motor drive with integrated neural network algorithms +
Computer Science Engineering to Address Energy Costs +
P
Computer Science Engineering to Address Energy Costs +
S
Computer Science Engineering to Address Energy Costs +
A
Computer Science Engineering to Address Energy Costs +
U
Ultra low-energy computing via probabilistic algorithms and devices: CMOS device primitives and the energy-probability relationship +
Computer Science Engineering to Address Energy Costs +
S
Computer Science Engineering to Address Energy Costs +
U
Computer Science Engineering to Address Energy Costs +
A
Computer Science Engineering to Address Energy Costs +
R
Computer Science Engineering to Address Energy Costs +
U
Computer Science Engineering to Address Energy Costs +
G
Computer Science Engineering to Address Energy Costs +
Computer Science Engineering to Address Energy Costs +
P
Computer Science Engineering to Address Energy Costs +
Q
Computer Science Engineering to Address Energy Costs +
T
Computer Science Engineering to Address Energy Costs +
S
Computer Science Engineering to Address Energy Costs +
R
Computer Science Engineering to Address Energy Costs +
A
Computer Science Engineering to Address Energy Costs +
T
Computer Science Engineering to Address Energy Costs +
F
Computer Science Engineering to Address Energy Costs +
S
Computer Science Engineering to Address Energy Costs +
M
Computer Science Engineering to Address Energy Costs +
P
Computer Science Engineering to Address Energy Costs +
E
D
Computer Science Engineering to Address Energy Costs +
T
Computer Science Engineering to Address Energy Costs +
Computer Science Engineering to Address Energy Costs +
I
Computer Science Engineering to Address Energy Costs +
A
A Hitchhiker's guide to statistical tests for assessing randomized algorithms in software engineering +
Computer Science Engineering to Address Energy Costs +
Computer Science Engineering to Address Energy Costs +
S
Computer Science Engineering to Address Energy Costs +
T
Computer Science Engineering to Address Energy Costs +
M
F
Computer Science Engineering to Address Energy Costs +
Computer Science Engineering to Address Energy Costs +
Computer Science Engineering to Address Energy Costs +
P
Computer Science Engineering to Address Energy Costs +
E
Computer Science Engineering to Address Energy Costs +
I
Computer Science Engineering to Address Energy Costs +
E
Computer Science Engineering to Address Energy Costs +
P
Computer Science Engineering to Address Energy Costs +
T
The computer as a physical system: A microscopic quantum mechanical Hamiltonian model of computers as represented by Turing machines +
Computer Science Engineering to Address Energy Costs +
D
Computer Science Engineering to Address Energy Costs +
M
Computer Science Engineering to Address Energy Costs +
S
Computer Science Engineering to Address Energy Costs +
Computer Science Engineering to Address Energy Costs +
T
Computer Science Engineering to Address Energy Costs +
R
Computer Science Engineering to Address Energy Costs +
S
Computer Science Engineering to Address Energy Costs +
L
Computer Science Engineering to Address Energy Costs +
S
Computer Science Engineering to Address Energy Costs +
T
Computer Science Engineering to Address Energy Costs +
L
Computer Science Engineering to Address Energy Costs +
O
Computer Science Engineering to Address Energy Costs +
A
Advocating noise as an agent for ultra-low energy computing: Probabilistic complementary metal-oxide-semiconductor devices and their characteristics +
Computer Science Engineering to Address Energy Costs +
Computer Science Engineering to Address Energy Costs +
C
Computer Science Engineering to Address Energy Costs +
I
Computer Science Engineering to Address Energy Costs +
C
Computer Science Engineering to Address Energy Costs +
P
Computer Science Engineering to Address Energy Costs +
E
Computer Science Engineering to Address Energy Costs +
Y
Computer Science Engineering to Address Energy Costs +
D
Computer Science Engineering to Address Energy Costs +
I
Computer Science Engineering to Address Energy Costs +
C
Computer Science Engineering to Address Energy Costs +
A
Computer Science Engineering to Address Energy Costs +
O
Computer Science Engineering to Address Energy Costs +
C
Computer Science Engineering to Address Energy Costs +
U
Computer Science Engineering to Address Energy Costs +
I
Computer Science Engineering to Address Energy Costs +
O
Computer Science Engineering to Address Energy Costs +
G
Computer Science Engineering to Address Energy Costs +
S
Computer Science Engineering to Address Energy Costs +
C
Computer Science Engineering to Address Energy Costs +
A
Computer Science Engineering to Address Energy Costs +
L
Computer Science Engineering to Address Energy Costs +
U
Computer Science Engineering to Address Energy Costs +
A
Computer Science Engineering to Address Energy Costs +
O
Computer Science Engineering to Address Energy Costs +
R
Computer Science Engineering to Address Energy Costs +
L
I
T
E
Computer Science Engineering to Address Energy Costs +
C
D
R
Computer Science Engineering to Address Energy Costs +
P
A
O
Computer Science Engineering to Address Energy Costs +
N
Computer Science Engineering to Address Energy Costs +
C
S
Computer Science Theory +
N
E
I
Computer Science Theory +
O
A
L
H
E
P
Q
E
R
A
R
A
C
R
O
Computer Science Theory +
H
Computer Science Theory +
N
Computer Science Theory +
I
Computer Science Theory +
E
Computer Science Theory +
T
Computer Science Theory +
E
Computer Science Theory +
O
Computer Science Theory +
W
Computer Science Theory +
P
Computer Science Theory +
T
Computer Science Theory +
A
Computer Science Theory +
O
Computer Science Theory +
A
Computer Science Theory +
O
Computer Science Theory +
L
Computer Science Theory +
E
Computer Science Theory +
C
Computer Science Theory +
T
The unique games conjecture, integrality gap for cut problems and embeddability of negative type metrics into l 1 +
Computer Science Theory +
O
Computer Science Theory +
Computer Science Theory +
P
Computer Science Theory +
C
Computer Science Theory +
E
Computer Science Theory +
P
Computer Science Theory +
A
Computer Science Theory +
H
Computer Science Theory +
Computer Science Theory +
P
Computer Science Theory +
A
Computer Science Theory +
Computer Science Theory +
S
Computer Science Theory +
O
Computer Science Theory +
L
Computer Science Theory +
O
Computer Science Theory +
Computer Science Theory +
T
Computer Science Theory +
E
Computer Science Theory +
C
Computer Science Theory +
L
Computer Science Theory +
V
Computer Science Theory +
O
Computer Science Theory +
L
Computer Science Theory +
E
Computer Science Theory +
R
Computer Science Theory +
B
Computer Science Theory +
D
Computer Science Theory +
O
Computer Science Theory +
A
Computer Science Theory +
P
Computer Science Theory +
S
Computer Science Theory +
U
Computer Science Theory +
L
Computer Science Theory +
U
Computer Science Theory +
D
Computer Science Theory +
Computer Science Theory +
F
Computer Science Theory +
M
Computer Science Theory +
R
Computer Science Theory +
P
Computer Science Theory +
O
Computer Science Theory +
A
Computer Science Theory +
G
Computer Science Theory +
P
Computer Science Theory +
E
Computer Science Theory +
N
Computer Science Theory +
A
Computer Science Theory +
F
Computer Science Theory +
T
Computer Science Theory +
H
Computer Science Theory +
T
Computer Science Theory +
M
Computer Science Theory +
S
Computer Science Theory +
C
Computer Science Theory +
O
Computer Science Theory +
A
Computer Science Theory +
R
Computer Science Theory +
U
Computer Science Theory +
D
Computer Science Theory +
R
Computer Science Theory +
T
Computer Science Theory +
R
Computer Science Theory +
P
Computer Science Theory +
I
Computer Science Theory +
L
Computer Science Theory +
Computer Science Theory +
F
Computer Science Theory +
A
Computer Science Theory +
L
Computer Science Theory +
F
Computer Science Theory +
Computer Science Theory +
C
Computer Science Theory +
A
Computer Science Theory +
T
Computer Science Theory +
A
Computer Science Theory +
M
N
Computer Science Theory +
A
T
I
M
General Non-equilibrium Statistical Physics +
T
I
G
E
M
Q
General Non-equilibrium Statistical Physics +
A
General Non-equilibrium Statistical Physics +
O
General Non-equilibrium Statistical Physics +
S
General Non-equilibrium Statistical Physics +
R
General Non-equilibrium Statistical Physics +
F
General Non-equilibrium Statistical Physics +
T
General Non-equilibrium Statistical Physics +
O
General Non-equilibrium Statistical Physics +
H
General Non-equilibrium Statistical Physics +
A
A general framework for non-equilibrium phenomena: The master equation and its formal consequences +
General Non-equilibrium Statistical Physics +
N
General Non-equilibrium Statistical Physics +
H
General Non-equilibrium Statistical Physics +
N
General Non-equilibrium Statistical Physics +
Q
General Non-equilibrium Statistical Physics +
S
General Non-equilibrium Statistical Physics +
T
General Non-equilibrium Statistical Physics +
I
General Non-equilibrium Statistical Physics +
M
O
T
General Non-equilibrium Statistical Physics +
O
General Non-equilibrium Statistical Physics +
J
E
General Non-equilibrium Statistical Physics +
A
General Non-equilibrium Statistical Physics +
T
The Szilard engine revisited: Entropy, macroscopic randomness, and symmetry breaking phase transitions +
General Non-equilibrium Statistical Physics +
F
General Non-equilibrium Statistical Physics +
H
B
U
Uber die Entropieverminderung in einem thermodynamischen System bei Eingriffen intelligenter Wesen +
General Non-equilibrium Statistical Physics +
E
W
S
M
General Non-equilibrium Statistical Physics +
G
T
M
General Non-equilibrium Statistical Physics +
F
R
General Non-equilibrium Statistical Physics +
{ "type": "PROPERTY_CONSTRAINT_SCHEMA", "constraints": { "type_constraint": "_txt", "allowed_values": [ "Artificial Biological Computation", "Chemical Reaction Networks", "Computer Science Engineering to Address Energy Costs", "Computer Science Theory", "General Non-equilibrium Statistical Physics", "Logically Reversible Computing", "Naturally Occurring Biological Computation", "Quantum Thermodynamics and Information Processing", "Review Articles and Books", "Stochastic Thermodynamics", "Thermodynamics of Neurobiology", "Thermodynamics of Single Cells", "Tutorials" ] } }