References
- IEEE Trans. on Advanced Packaging v.24 A high-performance hybrid electro-optical interconnection technology for high-speed electronic systems E.Griese
- BPA Consulting Limited World market and technology trends for optical substrates and backplanes
- IEEE Photonics Tech. Letters v.16 no.7 Board-to-board optical interconnection system using optical slots I.K.Cho;K.B.Yoon;S.H.Ahn;M.Y.Jeong;H.K.Sung;B.H.Lee;Y.U.Heo;H.H.Park
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IEE Electronics Letters
v.40
no.12
Low-crosstalk and high-efficiency optical interconnection using 45
$^{\circ}$ -ended connection rods in waveguide-embedded boards B.S.Rho;M.H.Cho;H.S.Cho;S.Kang;H.H.Park;S.W.Ha;B.H.Rhee - J. of Micromechanics and Microengineering v.14 Optical interconnection using fiber-embedded boards and connection blocks fabricated by micro-grooving technique for fiber insertion H.S.Cho;S.Kang;B.S.Rho;H.H.Park;K.U.Shin;S.W.Ha;B.H.Rhee;D.S.Kim;S.T.Jung;T.Kim
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IEEE J. of Lightwave Tech.
PCB-compatible optical interconnection using 45
$^{\circ}$ -ended connection rods and via-holed waveguides B.S.Rho;H.S.Cho;S.Kang;H.H.Park;S.W.Ha;B.H.Rhee - Optical Engineering Fabrication of fiber-embedded boards using grooving technique for optical interconnection application H.S.Cho;S.Kang;B.S.Rho;H.H.Park;S.U.Shin;S.W.Ha;B.H.Rhee;D.S.Kim;S.T.Jung;T.Kim
- IEEE J. of Lightwave Tech. Optical backplane system using waveguide-embedded PCBs and metal optical slots K.B.Yoon;I.K.Cho;S.H.Ahn;D.J.Lee;Y.H.Huh;B.S.Roh;H.H.Park;M.Y.Jeong;B.H.Rhee;
- High-speed digital system design: A Handbook of interconnect theory and design practices S.H.Hall;G.W.Hall;J.A.McCall
- Int. J. Optoelectronics v.11 Physical reasons for optical interconnection D.A.B.Miller