WONDER FILL

Brand Owner (click to sort) Address Description
WOND-R-FIL DOUGHBOY INDUSTRIES, INC. NEW RICHMOND WI WONDER-FILL;PACKAGING MACHINERY;
WONDERFIL Wonderful Network (Canada) Limited Bay 3, 2915 - 19th Street NE Calgary AB T2E7A2 Canada WONDER FILL;Chemical fiber base mixed thread and yarn; Chemical-fiber threads and yarns for textile use; Cotton base mixed thread and yarn; Cotton threads and yarns; Darning thread and yarn; Embroidery floss; Embroidery thread and yarn; Hand knitting yarns; Metal thread for embroidery; Mixed spun threads and yarns; Rayon thread and yarn; Regenerated fiber thread and yarn for textile use; Sewing thread and yarn; Sewing thread for textile use; Spun thread and yarn; Synthetic fiber thread and yarn; Synthetic thread; Thread; Threads and yarns for textile use; Threads made of spun cotton; Twisted cotton thread and yarn; Twisted mixed thread and yarn; Twisted threads and yarns; Wool base mixed thread and yarn; Yarn and thread for textile purposes; Yarns and threads for textile use;
WONDERFILL COMFORT REVOLUTION Suite 205 187 Route 36 West Long Branch NJ 07764 WONDER FILL;Polyester stuffing fibers used for making mattresses, mattress toppers, pillows, and cushions;mattresses; mattress toppers; pillows;
WONDERFILL IMAGINARIUM & CO, INC. Suite 201 187 Route 36 West Long Branch NJ 07764 WONDER FILL;Stuffing of blended foam and textile fiber, and not of rubber, plastic, or paper, for pillow fill material sold only in finished pillows;
 

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

    
Technical Examples
  1. An integrated circuit and a method for using metal fill geometries to reduce the voltage drop in power meshes. Metal fill geometries are connected to the power mesh using vias or wires at multiple locations. Metal fill geometries are connected to other floating metal fill geometries using vias or wires at multiple locations. The circuit design introduces maximum redundancy between metal fill geometries and power mesh geometries, but partial redundancy between metal fill geometries and metal fill geometries. In particular, the redundancy in connectivity between metal fill geometries and metal fill geometries is kept minimal to reduce the number of geometries introduced. The high redundancy between metal fill geometries and power mesh geometries and the partial redundancy among metal fill geometries result in a smaller IR-drop by reducing the effective resistance on a power mesh. Hence, the invention use redundancy carefully and advantageously to achieve simultaneous metal density and IR-drop optimization without introducing excessive number of metal fill geometries.