C.H. Tan scite author profile

The main obstacles in mass adoption of cloud computing for database operations in healthcare organization are the data security and privacy issues. In this paper, it is shown that IT services particularly in hardware performance evaluation in virtual machine can be accomplished effectively without IT personnel gaining access to actual data for diagnostic and remediation purposes. The proposed mechanisms utilized the hypothetical data from TPC-H benchmark, to achieve 2 objectives. First, the underlying hardware performance and consistency is monitored via a control system, which is constructed using TPC-H queries. Second, the mechanism to construct stress-testing scenario is envisaged in the host, using a single or combination of TPC-H queries, so that the resource threshold point can be verified, if the virtual machine is still capable of serving critical transactions at this constraining juncture. This threshold point uses server run queue size as input parameter, and it serves 2 purposes: It provides the boundary threshold to the control system, so that periodic learning of the synthetic data sets for performance evaluation does not reach the host's constraint level. Secondly, when the host undergoes hardware change, stress-testing scenarios are simulated in the host by loading up to this resource threshold level, for subsequent response time verification from real and critical transactions.

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Evaluation of alignment marks using ASML ATHENA alignment system in 90-nm BEOL process

Tan

Yeo

Koh³

et al. 2003

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As the critical dimension (CD) in integrated circuit (IC) device reduces, the total overlay budget needs to be more stringent. Typically, the allowable overlay error is 1/3 of the CD in the IC device. In this case, robustness of alignment mark is critical, as accurate signal is required by the scanner's alignment system to precisely align a layer of pattern to the previous layer. Alignment issue is more severe in back-end process partly due to the influenced of Chemical Mechanical Polishing (CMP), which contribute to the asymmetric or total destruction of the alignment marks. Alignment marks on the wafer can be placed along the scribe-line of the IC pattern. ASML scanner allows such type of wafer alignment using phase grating mark, known as Scribe-line Primary Mark (SPM) which can be fit into a standard 80um scribe-line. In this paper, we have studied the feasibility of introducing Narrow SPM (NSPM) to enable a smaller scribe-line. The width of NSPM has been shrunk down to 70% of the SPM and the length remains the same. It is a challenge to the alignment system to collect the NSPM signal and provide comparable alignment capability. The evaluations were completed using short loop wafers, which focus on back-end-of-line (BEOL) via and metal layers in a 90nm Cu dual damascene low k process. The results also look into the overlay performance using different alignment strategies. Offline overlay measurements were performed to verify the results.

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Cell loss probability of a finite ATM buffer queue

Zhang

Cheng

et al. 1999

IEE Proc., Commun.

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C.H. Tan

Bilevel image watermarking for image authentication surviving JPEG lossy compression

Synthetic Hardware Performance Analysis in Virtualized Cloud Environment for Healthcare Organization

Evaluation of alignment marks using ASML ATHENA alignment system in 90-nm BEOL process

Cell loss probability of a finite ATM buffer queue

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