Explore WARF Inventions and Patents
WARF’s portfolio of more than 1,600 patented technologies covers a wide range of categories, including analytical instrumentation, pharmaceuticals, food products, agriculture, research tools, medical devices, pluripotent stem cells, clean technology, information technology and semiconductors.
Information summaries, which describe each technology and its applications, benefits, inventors and patent status, can be downloaded, printed and shared by clicking on the technology category links to the left on this page.
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The new mutants show improved in vivo activity and more sustained therapeutic effect than naturally occurring Factor IX. They could potentially be administered intravenously, orally or by another route.
The copolymers include a polyhydroxamic acid-containing block and a polyferrocenyl block. They can be prepared by standard peptide synthesis or polymerization methods.
The researchers deleted two genes (Pad1p and Fdc1p) in the yeast that play a role in mediating GVL tolerance. The new strain is the first ethanol-producing yeast specifically tailored for GVL-based techniques.
The system includes units for electro-oxidation, electro-deposition and electro-adsorption. These units work sequentially to (1) break the strong chemical bonds in the waste stream, (2) recover the heavy metal ions and (3) remediate the organic/inorganic material.
A primary advantage of the new system is the redesigned electro-deposition unit, which houses a concentrating cathode and helps in the recovery of metals present even in very low concentrations in a reusable form.
SuperTag cache manages cache at three granularities: ‘super blocks,’ single blocks and fractional data segments. Since contiguous blocks have the same tag address, SuperTag increases per-block tag space by tracking super blocks (for example, a group of four aligned contiguous blocks of 64 bytes each). It also breaks each cache block into smaller data segments for storage.
To improve compression ratio, the technique uses a variable-packing scheme allowing variable-size compression blocks without costly compaction. It also co-compresses contiguous blocks, including within the same super block, thereby producing data segments for storage.
More specifically, the relationship between joints is described as a differential equation to be solved by the predictor. The predictor parameterizes the motion of the unconstrained joints in such a way as to match the conditions the solution needs to satisfy at both the start and end of a motion time step. As this parameterization is expressed by polynomial coefficients, motions of the remaining joints are readily determined by the kinematic predictor.