1,256 research outputs found
Adiabatic Flip-Flops and Sequential Circuit Design using Novel Resettable Adiabatic Buffers
We propose novel resettable adiabatic buffers for five adiabatic logic families namely; Efficient Adiabatic Charge Recovery Logic (EACRL), Improved Efficient Charge Recovery Logic (IECRL), Positive Feedback Adiabatic Logic (PFAL), Complementary Pass-transistor Adiabatic Logic (CPAL) and Clocked Adiabatic Logic (CAL). We present the design of resettable flip-flops using the proposed buffers. The proposed flip-flops alleviate the problem of increased energy and area consumption incurred by the existing mux-based resettable flip-flops. We then design the 3-bit up-down counters and extended our comparison beyond energy dissipation using the above five adiabatic logic families. PFAL based sequential circuit designs gives the best performance trade-offs in terms of complexity, energy, speed and area compared to the other adiabatic designs
VHDL-based Modelling Approach for the Digital Simulation of 4-phase Adiabatic Logic Design
In comparison to conventional CMOS (non-adiabatic logic), the verification of the functionality and the low energy traits of adiabatic logic techniques are generally performed using transient simulations at the transistor level. However, as the size and complexity of the adiabatic system increases, the amount of time required to design and simulate also increases. Moreover, due to the complexity of synchronizing the power-clock phases, debugging of errors becomes difficult too thus, increasing the overall verification time. This paper proposes a VHSIC Hardware Descriptive Language (VHDL) based modelling approach for developing models representing the 4-phase adiabatic logic designs. Using the proposed approach, the functional errors can be detected and corrected at an early design stage so that when designing adiabatic circuits at the transistor level, the circuit performs correctly and the time for debugging the errors can substantially be reduced. The function defining the four periods of the trapezoidal AC power-clock is defined in a package which is followed by designing a library containing the behavioral VHDL models of adiabatic logic gates namely; AND/NAND, OR/NOR and XOR/XNOR. Finally, the model library is used to develop and verify the structural VHDL representation of the 4-phase 2-bit ring-counter and 3-bit up-down counter, as a design example that demonstrates the practicality of the proposed approach
Modelling, Simulation and Verification of 4-phase Adiabatic Logic Design: A VHDL-Based Approach
The design and functional verification of the 4-phase adiabatic logic implementation take longer due to the complexity of synchronizing the power-clock phases. Additionally, as the adiabatic system scales, the amount of time in debugging errors increases, thus, increasing the overall design and verification time. This paper proposes a VHDL-based modelling approach for speeding up the design and verification time of the 4-phase adiabatic logic systems. The proposed approach can detect the functional errors, allowing the designer to correct them at an early design stage, leading to substantial reduction of the design and debugging time. The originality of this approach lies in the realization of the trapezoidal power-clock using function declaration for the four periods namely; Evaluation (E), Hold (H), Recovery (R) and Idle (I) exclusively. The four periods are defined in a VHDL package followed by a library design which contains the behavioral VHDL model of adiabatic NOT/BUF logic gate. Finally, this library is used to model and verify the structural VHDL representations of the 4-phase 2-bit ring-counter and 3-bit up-down counter, as design examples to demonstrate the practicality of the proposed approach
A VHDL-based Modelling Approach for Rapid Functional Simulation and Verification of Adiabatic Circuits
Adiabatic logic is an energy-efficient technique, however, the time required in the design, validation and debugging increases manifold for large-scale adiabatic system designs. In this endeavor, we present a Hardware Description Language (HDL) based modelling approach for 4-phase adiabatic logic design. The paper highlights the drawbacks of the existing approaches and proposes a new approach that captures the timing errors and detects the circuit’s invalid operation due to mutually exclusive inputs being violated. We develop a model library containing the function of the four periods used in the trapezoidal power-clock and the adiabatic logic gates. The validation and verification of the proposed approach were done on the ISO-14443 standard benchmark circuit, a 16-bit Cyclic Redundancy Check (CRC) circuit. The system modelled using HDL shows the timing agreement with the transistor-level SPICE simulations. The novel use of the four periods of a power-clock improves the robustness and reliability for the design and verification of large adiabatic systems
Estimation of Measures in M/m/1 Queue
Maximum likelihood and uniform minimum variance unbiased estimators of steady-state probability distribution of system size, probability of at least â„“ customers in the system in steady state, and certain steady-state measures of effectiveness in the M/M/1 queue are obtained/derived based on observations on X, the number of customer arrivals during a service time. The estimators are compared using Asympotic Expected Deficiency (AED) criterion leading to recommendation of uniform minimum variance unbiased estimators over maximum likelihood estimators for some measures
On the occurrence of Radio Halos in galaxy clusters - Insight from a mass-selected sample
Giant radio halos (RH) are diffuse Mpc-scale synchrotron sources detected in
a fraction of massive and merging galaxy clusters. An unbiased study of the
statistical properties of RHs is crucial to constrain their origin and
evolution. We aim at investigating the occurrence of RHs and its dependence on
the cluster mass in a SZ-selected sample of galaxy clusters, which is as close
as possible to be a mass-selected sample. Moreover, we analyse the connection
between RHs and merging clusters. We select from the Planck SZ catalogue
(Planck Collaboration XXIX 2014) clusters with
at z=0.08-0.33 and we search for the presence of RHs using the NVSS for z<0.2
and the GMRT RH survey (GRHS, Venturi et al. 2007, 2008) and its extension
(EGRHS, Kale et al. 2013, 2015) for 0.2<z<0.33. We use archival Chandra X-ray
data to derive information on the clusters dynamical status. We confirm that RH
clusters are merging systems while the majority of clusters without RH are
relaxed, thus supporting the idea that mergers play a fundamental role in the
generation of RHs. We find evidence for an increase of the fraction of clusters
with RHs with the cluster mass and this is in line with expectations derived on
the basis of the turbulence re-acceleration scenario. Finally, we discuss the
effect of the incompleteness of our sample on this result.Comment: 11 pages, 7 figures, accepted for publication in A&
The Extended GMRT Radio Halo Survey II: Further results and analysis of the full sample
The intra-cluster medium contains cosmic rays and magnetic fields that are
manifested through the large scale synchrotron sources, termed as radio halos,
relics and mini-halos. The Extended Giant Metrewave Radio Telescope (GMRT)
Radio Halo Survey (EGRHS) is an extension of the GMRT Radio Halo Survey (GRHS)
designed to search for radio halos using GMRT 610/235 MHz observations. The
GRHS+EGRHS consists of 64 clusters in the redshift range 0.2 -- 0.4 that have
an X-ray luminosity larger than 5x10^44 erg/s in the 0.1 -- 2.4 keV band and
with declinations > -31 deg in the REFLEX and eBCS X-ray cluster catalogues. In
this second paper in the series, GMRT 610/235 MHz data on the last batch of 11
galaxy clusters and the statistical analysis of the full sample are presented.
A new mini-halo in RXJ2129.6+0005 and candidate diffuse sources in Z5247, A2552
and Z1953 are discovered. A unique feature of this survey are the upper limits
on the detections of 1 Mpc sized radio halos; 4 new are presented here making a
total of 31 in the survey. Of the sample, 58 clusters that have adequately
sensitive radio information were used to obtain the most accurate occurrence
fractions so far. The occurrence of radio halos in our X-ray selected sample is
~22%, that of mini-halos is 13% and that of relics is ~5%. The radio power -
X-ray luminosity diagrams for the radio halos and mini-halos with the
detections and upper limits are presented. The morphological estimators namely,
centroid shift (w), concentration parameter (c) and power ratios (P_3/P_0)
derived from the Chandra X-ray images are used as proxies for the dynamical
states of the GRHS+EGRHS clusters. The clusters with radio halos and mini-halos
occupy distinct quadrants in the c-w, c-P_3/P_0 and w - P_3/P_0 planes,
corresponding to the more and less morphological disturbance, respectively. The
non-detections span both the quadrants.Comment: 24 pages, 5 tables, 25 figures, accepted for publication in A&
FORMULATION OPTIMIZATION OF PROMETHAZINE THEOCLATE IMMEDIATE RELEASE PELLETS BY USING EXTRUSION-SPHERONIZATION TECHNIQUE
Objective: Promethazine theoclate is a BCS Class II drug having anti-histaminic property and mainly used for the treatment of motion sickness and postoperative emesis. The main objective of the research work was to formulate and optimize immediate release pellets of promethazine theoclate by using the extrusion-spheronization technique to offer immediate release dosage form suitable for treatment of nausea and vomiting associated with motion sickness and post-operative conditions.Methods: Immediate release pellets of promethazine theoclate were prepared by using microcrystalline cellulose (MCC) and corn starch as filler and disintegrant respectively along with other excipients. Pellet formulation was further optimized for bulk density, disintegration time and percent drug release after 10 min. using 32 factorial design. Formulations were also characterized for drug-polymer interactions using Differential Scanning Calorimetry (DSC), surface morphology by Scanning Electron Microscopy (SEM) and other physicochemical properties.Results: Optimised pellet formulation contains 2.5:4.5:1 ratio of MCC: Corn Starch: Drug and spheronization time of 60 seconds showing highest percent yield of 78% and immediate drug release of 100.52±0.65% after 10 min.Conclusion: Promethazine theoclate pellets formulated in this study can serve as an alternative to tablet dosage form which can give immediate drug release for treatment of motion sickness and postoperative emesis
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