BIO MIMIC

Brand Owner (click to sort) Address Description
BIOMIMIC INSTITUT NATIONAL D'OPTIQUE 2740 rue Einstein Québec QC G1P 4S4 Canada BIO-MIMIC;A solid or semi-solid polymer-based material that simulates the optical properties of biological tissues and can be made in various shapes, used as a reference sample in visible and near-infrared optical imaging, molecular imaging and light dose simulation for scientific and medical research use;
BIOMIMIC Institut national d'optique (INO) 2740, rue Einstein Quebec G1P4S4 Canada BIO-MIMIC;A solid or semi-solid polymer-based material that simulates the optical properties of biological tissues and can be made in various shapes, used as a reference sample in visible and near-infrared optical imaging, molecular imaging and light dose simulation for scientific and medical research use;
BIOMIMIC Bloom Research Innovation and Technology Inc. 8034 Ackerman Street Buena Park CA 90621 BIO MIMIC;Cosmetics; non-medicated skin care preparations; skin lotions and creams; non-medicated cleansing and washing preparations for the skin; non-medicated skin serums; anti-aging skin care preparations; anti-aging skin care preparations; anti-aging creams, lotions and gels for skin; wrinkle removing and minimizing skin care preparations; skin lighteners; non-medicated preparations for brightening skin; non-medicated skin care preparations to inhibit production, maturation and transfer of pigmentation in skin; non-medicated skin care preparations to repair hyper pigmentation and improve discoloration of skin;
 

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

    
Technical Examples
  1. Delays through components of a programmable device are determined transparently to the user through the use of mimic paths. For each delay path to be measured, at least one mimic path is created that has similar components and characteristics to the actual path to be measured. A signal fed through this mimic path will experience similar delay to a signal passing through the actual path, which can be affected by temperature and voltage variations during operation. A swept clock signal can be passed to a register latching the mimic signal data, producing output that can be fed to lead/lag logic to determine a current value of the delay through the mimic path. This delay can be compared to a previous delay determination to approximate an adjustment to be made to a sampling clock used to latch the actual data into the appropriate register at the middle of the latching window.