13 research outputs found
Reusable Verification Environment for a RISC-V Vector Accelerator
This paper presents a reusable verification environment developed for the verification of an academic
RISC-V based vector accelerator that operates with long vectors. In order to be used across diverse projects, this
infrastructure intends to be independent of the interface used for connecting the accelerator to the scalar processor
core. We built a verification infrastructure consisting of a Universal Verification Environment (UVM) which is
capable of validating the design performing co-simulation of the vector instructions. Moreover, we provided a set of
tests and an automated test generation, simulation and error reporting infrastructure. This paper shares our
experience on verifying a complex accelerator used in two distinct projects, with different interfaces.This research has received funding from the European High Performance Computing Joint Undertaking (JU)
under Framework Partnership Agreement No 800928 (European Processor Initiative) and Specific Grant
Agreement No 101036168 (EPI SGA2) and No 956702 (eProcessor) . The JU receives support from the
European Union’s Horizon 2020 research and innovation programme and from Croatia, France, Germany,
Greece, Italy, Netherlands, Portugal, Spain, Sweden, and Switzerland. The EPI-SGA2 project,
PCI2022-132935_N1618737 is also co-funded by MCIN/AEI /10.13039/501100011033 and by the UE
NextGenerationEU/PRTRPeer ReviewedPostprint (author's final draft
Hemodialysis in children: general practical guidelines
Over the past 20 years children have benefited from major improvements in both technology and clinical management of dialysis. Morbidity during dialysis sessions has decreased with seizures being exceptional and hypotensive episodes rare. Pain and discomfort have been reduced with the use of chronic internal jugular venous catheters and anesthetic creams for fistula puncture. Non-invasive technologies to assess patient target dry weight and access flow can significantly reduce patient morbidity and health care costs. The development of urea kinetic modeling enables calculation of the dialysis dose delivery, Kt/V, and an indirect assessment of the intake. Nutritional assessment and support are of major importance for the growing child. Even if the validity of these “urea only” data is questioned, their analysis provides information useful for follow-up. Newer machines provide more precise control of ultrafiltration by volumetric assessment and continuous blood volume monitoring during dialysis sessions. Buffered bicarbonate solutions are now standard and more biocompatible synthetic membranes and specific small size material dialyzers and tubing have been developed for young infants. More recently, the concept of “ultrapure” dialysate, i.e. free from microbiological contamination and endotoxins, has developed. This will enable the use of hemodiafiltration, especially with the on-line option, which has many theoretical advantages and should be considered in the case of maximum/optimum dialysis need. Although the optimum dialysis dose requirement for children remains uncertain, reports of longer duration and/or daily dialysis show they are more effective for phosphate control than conventional hemodialysis and should be considered at least for some high-risk patients with cardiovascular impairment. In children hemodialysis has to be individualized and viewed as an “integrated therapy” considering their long-term exposure to chronic renal failure treatment. Dialysis is seen only as a temporary measure for children compared with renal transplantation because this enables the best chance of rehabilitation in terms of educational and psychosocial functioning. In long term chronic dialysis, however, the highest standards should be applied to these children to preserve their future “cardiovascular life” which might include more dialysis time and on-line hemodiafiltration with synthetic high flux membranes if we are able to improve on the rather restricted concept of small-solute urea dialysis clearance
A strained SiGe layer heterojunction bipolar phototransistor for short-range opto-microwave applications
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