interlocked$40021$ - определение. Что такое interlocked$40021$
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Что (кто) такое interlocked$40021$ - определение

MOLECULES OR IONS THAT ARE CONNECTED AS A CONSEQUENCE OF THEIR TOPOLOGY
Mechanical bond; Residual topology; Mechanically-interlocked molecular architecture; Mechanically-interlocked molecular architectures; Mechanically interlocked molecular architecture

Residual topology         
  • [[Rotaxane]]
  • [[Catenane]]
  • [[Molecular knot]]
  • [[Molecular Borromean rings]]
Residual topology is a descriptive stereochemical term to classify a number of intertwined and interlocked molecules, which cannot be disentangled in an experiment without breaking of covalent bonds, while the strict rules of mathematical topology allow such a disentanglement. Examples of such molecules are rotaxanes, catenanes with covalently linked rings (so-called pretzelanes), and open knots (pseudoknots) which are abundant in proteins.
Mechanically interlocked molecular architectures         
  • [[Rotaxane]]
  • [[Catenane]]
  • [[Molecular knot]]
  • [[Molecular Borromean rings]]
Mechanically interlocked molecular architectures (MIMAs) are molecules that are connected as a consequence of their topology. This connection of molecules is analogous to keys on a keychain loop.
Microprocessor without Interlocked Pipeline Stages         
RESEARCH PROJECT AT STANFORD UNIVERSITY THAT WAS COMMERCIALIZED BY MIPS COMPUTER SYSTEMS
Microprocessor without Interlocked Pipeline Stages
<processor> (MIPS) A project at Stanford University intended to simplify processor design by eliminating hardware interlocks between the five pipeline stages. This means that only single execution cycle instructions can access the thirty two 32-bit general registers, so that the compiler can schedule them to avoid conflicts. This also means that LOAD/STORE and branch instructions have a one-cycle delay to account for. However, because of the importance of multiply and divide instructions, a special HI/LO pair of multiply/divide registers exist which do have hardware interlocks, since these take several cycles to execute and complicate instruction scheduling. The project eventually lead to the commercial MIPS R2000 processor. (1995-02-09)

Википедия

Mechanically interlocked molecular architectures

In chemistry, mechanically-interlocked molecular architectures (MIMAs) are molecules that are connected as a consequence of their topology. This connection of molecules is analogous to keys on a keychain loop. The keys are not directly connected to the keychain loop but they cannot be separated without breaking the loop. On the molecular level, the interlocked molecules cannot be separated without the breaking of the covalent bonds that comprise the conjoined molecules; this is referred to as a mechanical bond. Examples of mechanically interlocked molecular architectures include catenanes, rotaxanes, molecular knots, and molecular Borromean rings. Work in this area was recognized with the 2016 Nobel Prize in Chemistry to Bernard L. Feringa, Jean-Pierre Sauvage, and J. Fraser Stoddart.

The synthesis of such entangled architectures has been made efficient by combining supramolecular chemistry with traditional covalent synthesis, however mechanically interlocked molecular architectures have properties that differ from both "supramolecular assemblies" and "covalently bonded molecules". The terminology "mechanical bond" has been coined to describe the connection between the components of mechanically interlocked molecular architectures. Although research into mechanically interlocked molecular architectures is primarily focused on artificial compounds, many examples have been found in biological systems including: cystine knots, cyclotides or lasso-peptides such as microcin J25 which are proteins, and a variety of peptides.