Integrated data input sorting and timing circuit for double data rate (DDR) dynamic random access memory (DRAM) devices

An integrated data input sorting and timing circuit for double data rate ("DDR") dynamic random access memory ("DRAM") devices in which a sorting of the input data into odd/even is integrated with the necessary timing to allow synchronization with the on-chip Y-clock signal (column address select) without the need to provide separate circuits. In those devices having multiple DQS inputs, any skew between DQS pins is allowed as long as no one DQS pin violates the DQS-to-clock ("DQS-CLK") skew requirements. The circuit and method of the present invention also allows a write to occur at command +2 cycles (last data +½). Functionally, both rising and falling data (i.e., data on the rising and falling edges of DQS) is captured by the DQS inputs and presented in parallel to the chips internal write path and data is passed on the falling edge of DQS. Rising edge data ("Redat") signals then specify whether the rising edge data should be mapped to the even or odd field, with falling edge data being directed to the opposite field. The timing of the rising edge data signals is such that the internal odd and even data buses only transition prior to a given write clock, and don't transition during the write clock itself. This is supported over a large range of positive and negative DQS-to-clock skews.