FAST MIX

Brand Owner (click to sort) Address Description
FASTMIX QUANTABIO 100 CUMMINGS CENTER, SUITE 407J BEVERLY MA 01915 FAST MIX;Polymerase chain reaction (PCR) reagents for scientific and medical research purposes; Reagents for amplification and detection of nucleic acids for scientific and medical research purposes; Reagents for real-time and quantitative amplification and detection of nucleic acids for scientific and medical research purposes;
FASTMIX QIAGEN BEVERLY 100 Cummings Center, Suite 407J Beverly MA 01915 FAST MIX;Polymerase chain reaction (PCR) reagents for scientific and medical research purposes; Reagents for amplification and detection of nucleic acids for scientific and medical research purposes; Reagents for real-time and quantitative amplification and detection of nucleic acids for scientific and medical research purposes;
FASTMIX QIAGEN BEVERLY, INC. 100 CUMMINGS CENTER, SUITE 407J BEVERLY MA 01915 FAST MIX;Polymerase chain reaction (PCR) reagents for scientific and medical research purposes; Reagents for amplification and detection of nucleic acids for scientific and medical research purposes; Reagents for real-time and quantitative amplification and detection of nucleic acids for scientific and medical research purposes;
FASTMIX Quanta Biosciences, Inc. Suite 1 202 Perry Parkway Gaithersburg MD 20877 FAST MIX;Polymerase chain reaction (PCR) reagents for scientific and medical research purposes; Reagents for amplification and detection of nucleic acids for scientific and medical research purposes; Reagents for real-time and quantitative amplification and detection of nucleic acids for scientific and medical research purposes;
 

Where the owner name is not linked, that owner no longer owns the brand

    
Technical Examples
  1. A fast optical switch is needed to realize an economical and scaleable optical-core network. In the disclosed optical switch, switching is effected by rapid wavelength conversion. Either channel switching, Time Division Multiplex (TDM) switching or both may be provided by the fast optical switch. The operation of the fast optical switch is enabled by a fast scheduler. The throughput of the optical switch may be increased through a process of bimodal pipelined connection-packing. An in-band exchange of control signals with external nodes may serve to minimize the control overhead. Such control signals may include time-locking signals and connection-requests. A modular structure may be configured to comprise several fast optical switches to yield a high-speed, high-capacity, fully-connected optical switch.