Otto Schumacher
Qimonda
Network
Latest external collaboration on country level. Dive into details by clicking on the dots.
Publication
Featured researches published by Otto Schumacher.
international solid-state circuits conference | 2009
Hamid Partovi; Karthik Gopalakrishnan; Luca Ravezzi; Russell Homer; Otto Schumacher; Reinhold Unterricker; Werner Kederer
Graphics processing is the driving force behind the demand for high-bandwidth DRAMs. Accelerating the pace of bandwidth improvement, fifth-generation graphics DDRs will operate at data rates up to 5.33Gb/s, and support single-ended signaling for low pin-count. A significant design challenge is to ensure proper signal transmission over single-ended wires at rates previously attainable only with differential pairs. We present single-ended transceiver design techniques for 5.33Gb/s operation. In addition to the receiver and transmitter, a CML-to-CMOS converter and an integrated serializer/level-shifter are described (Fig. 7.5.1). The circuits are fabricated in 0.13µm 1.2V CMOS. The chip area is 5.7×7.0mm2 and is housed in a quadratic BGA package with 289 balls.
Archive | 2008
Torsten Hinz; Otto Schumacher; Patrick Runkel; Russell Homer
Archive | 2007
Karthik Gopalakrishnan; Otto Schumacher; Luca Ravezzi; Andreas Blum; Hamid Partovi
Archive | 2006
Aaron Nygren; Thomas Hein; Martin Maier; Otto Schumacher
Archive | 2010
Thomas Hein; Otto Schumacher; Martin Maier; Aaron Nygren
Archive | 2009
Dirk Scheideler; Otto Schumacher; Karthik Gopalakrishnan
Archive | 2008
Karthik Gopalakrishnan; Dirk Scheideler; Otto Schumacher
Archive | 2008
Dirk Scheideler; Otto Schumacher; Karthik Gopalakrishnan
Archive | 2008
Karthik Gopalakrishnan; Dirk Scheideler; Otto Schumacher
Archive | 2007
Thomas Hein; Martin Maier; Aaron Nygren; Otto Schumacher
