Your search keyword '"Siow Chek Tan"' showing total 13 results

1. Systematic Approach to Design High Power FPGA Package for Current-Carrying Capability

Author

Suresh Ramalingam, Jae-Gyung Ahn, Gamal Refai-Ahmed, Hong Shi, and Siow Chek Tan

Subjects

010302 applied physics, Engineering, Interconnection, Current distribution, business.industry, 02 engineering and technology, 01 natural sciences, 020202 computer hardware & architecture, Ball grid array, 0103 physical sciences, 0202 electrical engineering, electronic engineering, information engineering, Electronic engineering, Ball (bearing), Interposer, business, Field-programmable gate array

Abstract

This paper describes a systematic approach to design FPGA package for current carrying capability. As we examine silicon, interposer, and package, the profound challenge is found to meet the lifetime of high power device against the greater chance of failures owing to worsen electro-migration in every interconnect level. Our approach consists of practical methodologies to estimate current distribution and to calculate accumulated failure rates from an entire substrate including BGA ball, micro-via and plated through hole. The approach reported here allows lifetime calculation from the progressive failure of individual BGA over the different time span. In the end, we apply the methodology to a 200A high power design achieved with the most efficient ball count that meets lifetime specification.

Published

2017

2. Investigation of Package Crosstalk and Impact to 28-32Gbps Transceiver Jitter Margin

Author

Siow Chek Tan, Sarajuddin Niazi, and Hong Shi

Subjects

Coupling, Crosstalk, Engineering, business.industry, Electronic engineering, Insertion loss, Transceiver, business, Critical path method, Stripline, Jitter

Abstract

Jitter margin loss as result of crosstalk impairment emerges as increasing challenge at 28Gbps and beyond. As silicon compensation is known ineffective to crosstalk, package becomes critical path of system jitter margin. At this speed, signal coupling needs to be kept at well below -50dB in order to ensure adequate insertion-loss-to-coupling ratio (ICR) for protocol jitter compliance. In this paper, we studied coupling mechanism and design options to achieve -50dB to -70dB coupling for devices used in 28G long reach, mixed long reach, short reach environments. Furthermore, we solved the myth of power-ground co-referencing for high speed transceivers. The investigation is carried out by theoretical analysis, full-wave modeling, link simulation, and hardware measurement validation.

Published

2016

3. High power FPGA package design to maximize current-carrying capability

Author

Gamal Refai-Ahmed, Suresh Ramalingam, Jae-Gyung Ahn, Hong Shi, and Siow Chek Tan

Subjects

010302 applied physics, Engineering, business.industry, Failure rate, 02 engineering and technology, 01 natural sciences, Electromigration, 020202 computer hardware & architecture, Power (physics), Package design, Ball grid array, 0103 physical sciences, 0202 electrical engineering, electronic engineering, information engineering, Electronic engineering, Current (fluid), Physical design, business, Field-programmable gate array

Abstract

The recent market demand to high power 16nm FPGA has challenged package design to an unprecedented level. Specifically, logic tense applications require significantly greater dynamic current than previous generations. This paper describes recent advancements in high power FPGA package design for current-carrying capability. Firstly, new design methodologies are introduced that can link physical design for optimal current distribution directly to failure rate as a result of electro-migration (EM) in stated lifetime. Secondly, a specific design case is analyzed with the new method to show how BGA pin pattern can impact maximal current carrying capability.

Published

2016

4. Power and ground co-reference design for 16-32Gbps transceiver packages

Author

Siow Chek Tan, Hong Shi, and Sarajuddin Niazi

Subjects

Engineering, business.industry, Reference design, Electrical engineering, Transfer function, Crosstalk, Modeling and simulation, Ball grid array, Hardware_INTEGRATEDCIRCUITS, Electronic engineering, Transceiver, business, Electrical impedance, Passband

Abstract

The applications to increasing number of transceivers and data rate require extra ground pins (i.e. BGA balls) reserved for channel isolation and crosstalk control. To improve total pin utilization, a transceiver package often resorts to power pins to replace up to 50% of ground pins. However, power pins can fail providing adequate isolation for transceivers operating at 16Gbps and higher data rate. In this paper, we provide latest study results to the fundamental physics of transceiver crosstalk arising from power pin isolation. The mechanism is validated by modeling and simulation in both signal and power distribution network (PDN) domains. It is demonstrated that PDN resonance is reciprocally proportional to the crosstalk introduced. Most importantly, proper design approach is introduced to ensure power-ground co-referencing to deliver nearly identical performance as all-ground scheme in the 50dBs.

Published

2015

5. Static voltage drop and current density analysis for high performance FPGA flip-chip package design

Author

Yee Huan Yew and Siow Chek Tan

Subjects

Engineering, business.industry, Electrical engineering, Integrated circuit, law.invention, law, Chip-scale package, Hardware_INTEGRATEDCIRCUITS, Electronic engineering, Physical design, Routing (electronic design automation), business, Power network design, Field-programmable gate array, Voltage drop, Flip chip

Abstract

As the FPGA device performance increases and integrated circuit reduces in size there will be more and more challenges on the package design. Detailed analysis to capture and address design challenges is important for a viable power distribution network (PDN) package design. This paper will discuss the modeling methodology to analyze the static voltage drop for the high performance and high density FPGA flip-chip packages. Thru the analysis, the design solution to optimize the IR drop and EM problem will be presented.

Published

2014

6. Investigation of power & ground co-reference for high-speed signal in package design

Author

Hong Shi, Dan Oh, Siow Chek Tan, and Jianmin Zhang

Subjects

Engineering, System in package, business.industry, Chip-scale package, Package on package, Electrical engineering, Small Outline Integrated Circuit, System on a chip, Integrated circuit packaging, Quad Flat No-leads package, business, Dual in-line package

Abstract

With silicon process technology advanced to 20 nm node and beyond, die size is continuously shrinking. Package cost is very sensitive to the total cost of an entire chip/ASIC (Application-Specific Integrated Circuit). To reduce package cost, either the package layer count needs to be reduced or the package size needs to be decreased. For a given chip/ASIC design, its high-speed IO (Input Output) pin numbers are fixed in order to meet a certain functional specification, and associated power pins are optimized to guarantee the IO performance. If some of the power pins can be used as references for high-speed IOs, a same die can sit on a small package or a same package can accommodate a die with more high-speed IO pins, which equivalently results the package cost reduction. This motivates the investigation on power and ground co-reference design for highs-speed IOs not only on the concern of cost reduction but also the design insights. In this paper, a production based package with pure ground as reference is studied. A power and ground co-reference design is formed by changing six ground pins from the production package to power pins in test package. The performance of high-speed IOs is compared between pure ground reference design and the power and ground co-reference design. Discussions and conclusions are followed by the comparison, and further study is proposed at the end of the paper.

Published

2013

7. An innovative surrogate chip for accurate high-speed wire bond package measurement

Author

Chiun Ning Liew, Swee Fong Chong, John Xie, Wai Ling Lee, Hoon Ngik Low, Xiaohong Jiang, Ping Chet Tan, Chong Poh Lim, Loon Kwang Tan, Ying Fei Tan, Siow Chek Tan, and Hong Shi

Subjects

Engineering, Wire bonding, business.industry, Electrical engineering, High-Speed Serial Interface, Chip, Ball grid array, Logic gate, Hardware_INTEGRATEDCIRCUITS, Electronic engineering, Transceiver, Double data rate, business, Electronic circuit

Abstract

Wire bond packaging for semiconductor devices has been the choice of low cost implementation to memory interface and high-speed transceivers. However, accurate characterization for wire bond package remains challenging owing to lack of consistent probing methodology. Meanwhile, semiconductor devices tend to have increasingly higher density of I/O, logic circuits and transceiver circuits yet shrinking die size. Therefore, the bonding die pads have to be allocated ever closer to accommodate more I/Os, transceivers and powers. This has made any 2-port transfer function measurement involving link between die pad through wire to BGA balls next to impossible. In this paper, an innovative measurement technology, surrogate chip substrate is proposed to enable accurate and consistent wire bond package measurements for multiple High Speed Serial Interface (HSSI) channel, Double Data Rate (DDR) interface, and wire bond implementation of Power Distribution Networks (PDN)

Published

2010

8. Crosstalk model with impedance discontinuity for high speed interconnects

Author

Siow Chek Tan, Hong Shi, Siew Lean Wong, Yee Huan Yew, and CP Wong

Subjects

Inductance, Crosstalk, Computer science, Electronic engineering, Integrated circuit packaging, Impedance discontinuity, Electrical impedance, Capacitance

Abstract

This paper presents a crosstalk model base on even-odd mode analysis. It demonstrates that crosstalk analysis needs to look at the aspect of the timing delay between even and odd mode and the multiple reflections that occurred in a system. This concept is validated further by measurement result.

Published

2010

9. Crosstalk and switching noise mechanism study in high density wire-bond FPGA device

Author

Yee Huan Yew, Hong Shi, and Siow Chek Tan

Subjects

Circuit noise, Engineering, Wire bonding, business.industry, Computer science, Electrical engineering, Electronic packaging, High density, Inductance, Crosstalk, Hardware_INTEGRATEDCIRCUITS, Electronic engineering, business, Field-programmable gate array, Electrical impedance

Abstract

This paper presents the dominant contributors of mutual inductance in wire-bond package thru study on the return path. The study is validated through real device measurement correlation. Based on the study, techniques to reduce crosstalk in wire-bond package will be presented which will be beneficial to the packaging world as bond wire continues to be the dominant technique to connect die to the package in low cost application.

Published

2008

10. Flip-chip Packages with Periphery Cu Pillar Bumps as Wire Bond Replacement—Design, Modeling & Characterization

Author

Zhe Li, Pheak Ti Teh, Yee Huan Yew, Myeongbae Lee, Siow Chek Tan, and John Xie

Subjects

Thermal copper pillar bump, Engineering, Wire bonding, business.industry, Mechanical engineering, Die (integrated circuit), Small form factor, Automotive Engineering, Electronic engineering, Transceiver, Field-programmable gate array, business, Flip chip, PCI Express

Abstract

Cu pillar is an emerging interconnect technology which offers many advantages compared to traditional packaging technologies. This paper presents a novel packaging solution with periphery fine pitch Cu pillar bumps for low cost and high performance Field Programmable Gate Array (FPGA) devices. Wire bonding has traditionally been the choice for low cost implementation of memory interfaces and high speed transceivers. Migration to Cu pillar technology is mainly driven by increasing demand for IO density and package small form factor. Cu pillar bumps also offer significant improvement on electrical performance compared to wire bonds. This paper presents Cu pillar implementation in an 11×11mm flip chip CSP package. Package design is optimized for serial data transport up to 6.114Gbps to meet CPRI_LVII and PCIe Gen2 compliance requirements. Package design strategy includes die and package co-design, SI/PI modeling and physical layout optimization.

Published

2013

11. An innovative surrogate chip for accurate high-speed wire bond package measurement.

Author

Hong Shi, Hoon Ngik Low, Xiaohong Jiang, Ying Fei Tan, Wai Ling Lee, Siow Chek Tan, Swee Fong Chong, Xie, J., Ping Chet Tan, Loon Kwang Tan, Chong Poh Lim, and Chiun Ning Liew

Published

2010

12. Crosstalk model with impedance discontinuity for high speed interconnects.

Author

Yee Huan Yew, Hong Shi, Siow Chek Tan, Siew Lean Wong, and Wong, C.P.

Published

2010

13. Crosstalk and Switching Noise Mechanism Study in High Density Wire-bond FPGA Device.

Author

Siow Chek Tan, Yee Huan Yew, and Hong Shi

Published

2008