1,239 research outputs found
HPLC-VALIDATION OF MOXIFLOXACIN
The structure formula of moxifloxacin is described as follows: 8 methoxy flouroquinolone: and it is broad spectrum antibiotic [1, 2].we study moxifloxacin by IV drug delivery system. And for its study following apparatus is used; 1-a reversed-phase Lichrospher RP-18 column, 2-a mobile phase which is composed of different solvents. It is detected at a wavelength of 290 nm. By this method the retention time of moxifloxacin is very short. When we detect it in plasma and brain tissue linear curves are obtained. .The advantage of this method is that we can detect the bacteria in plasma and brain tissues by this method
P4TE: PISA Switch Based Traffic Engineering in Fat-Tree Data Center Networks
This work presents P4TE, an in-band traffic monitoring, load-aware packet
forwarding, and flow rate controlling mechanism for traffic engineering in
fat-tree topology-based data center networks using PISA switches. It achieves
sub-RTT reaction time to change in network conditions, improved flow completion
time, and balanced link utilization. Unlike the classical probe-based
monitoring approach, P4TE uses an in-band monitoring approach to identify
traffic events in the data plane. Based on these events, it re-adjusts the
priorities of the paths. It uses a heuristic-based load-aware forwarding path
selection mechanism to respond to changing network conditions and control the
flow rate by sending feedback to the end hosts. It is implementable on emerging
v1model.p4 architecture-based programmable switches and capable of maintaining
the line-rate performance. Our evaluation shows that P4TE uses a small amount
of resources in the PISA pipeline and achieves an improved flow completion time
than ECMP and HULA
Preprint: Open Source Compiling for V1Model RMT Switch: Making Data Center Networking Innovation Accessible
Very few of the innovations in deep networking have seen data center scale
implementation. Because the Data Center network's extreme scale performance
requires hardware implementation, which is only accessible to a few. However,
the emergence of reconfigurable match-action table (RMT) paradigm-based
switches have finally opened up the development life cycle of data plane
devices. The P4 language is the dominant language choice for programming these
devices. Now, Network operators can implement the desired feature over white
box RMT switches. The process involves an innovator writing new algorithms in
the P4 language and getting them compiled for the target hardware. However,
there is still a roadblock. After designing an algorithm, the P4 program's
compilation technology is not fully open-source. Thus, it is very difficult for
an average researcher to get deep insight into the performance of his/her
innovation when executed at the silicon level. There is no open-source compiler
backend available for this purpose. Proprietary compiler backends provided by
different hardware vendors are available for this purpose. However, they are
closed-source and do not provide access to the internal mapping mechanisms.
Which inhibits experimenting with new mapping algorithms and innovative
instruction sets for reconfigurable match-action table architecture. This paper
describes our work toward an open-source compiler backend for compiling P416
targeted for the V1Model architecture-based programmable switches.Comment: arXiv admin note: substantial text overlap with arXiv:2208.1289
Sugar cane bagasse pretreatment: An attempt to enhance the production potential of cellulases by Humicola insolens TAS-13
Pretreatment of the cellulosic substrate has miracle effect on the enhancement of cellulase production by fungal strains. A thermophilic strain of Humicola insolens TAS-13 was locally isolated and was tested for cellulases production under solid-state fermentation conditions using sugar cane bagasse as substrate. The cultural conditions for the H. insolens were also optimized for the higher rate of cellulase secretion. In order to enhance the production rate of heterogenouscellulosic proteins, bagasse was pretreated with NaOH, H2SO4, H2O2 and H2O2+1.5%NaOH. The pretreatment of bagasse with 2.0% H2O2 along with 1.5% NaOH enhanced the biosynthesis of cellulases by H. insolens. Production rate was also optimized with different parameters like thickness of fermentation medium, initial pH, incubation time and temperature. The thickness of the fermentation medium of 0.8 cm (10 g) with pH range of 5.5 was found to be better for enhanced production at 50°C. The yield of the enzyme was reached maximum with CMC-ase (18.98 U/g/min), FP-ase (13.63 U/g/min), -glucosidase (19.54 U/g/min) 72 h after inoculation
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