Accelerate Diagnostics Inc EBITDA
Что обозначает EBITDA в Accelerate Diagnostics Inc?
EBITDA Accelerate Diagnostics Inc является N/A
Какое определение для EBITDA?
EBITDA - это прибыль компании до вычета процентов, налогов, обесценивания и амортизации, а также является бухгалтерской мерой, рассчитанной с использованием чистой прибыли компании до вычета процентных расходов, налогов, обесценивания и амортизации в качестве показателя текущей операционной прибыли компании.
Although EBITDA is not a financial measure recognized in generally accepted accounting principles, it is widely used in many areas of finance when assessing the performance of a company, such as securities analysis. It is intended to allow a comparison of profitability between different companies, by discounting the effects of interest payments from different forms of financing (by ignoring interest payments), political jurisdictions (by ignoring tax), collections of assets (by ignoring depreciation of assets), and different takeover histories (by ignoring amortization often stemming from goodwill). EBITDA is a financial measurement of cash flow from operations that is widely used in mergers and acquisitions of small businesses and businesses in the middle market. It is not unusual for adjustments to be made to EBITDA to normalize the measurement allowing buyers to compare the performance of one business to another.
Что делает Accelerate Diagnostics Inc?
accelerate diagnostics, inc. (nasdaq:axdx), is an in vitro diagnostics company focused on developing and commercializing innovative systems for the rapid identification and antimicrobial susceptibility testing of infectious pathogens. the company's revolutionary id/ast platform utilizes a proprietary process with both genomic and phenotypic detection technologies that significantly decreases time to result while achieving high sensitivity and specificity. in addition to the id/ast development pipeline, the company also owns and licenses its proprietary optichem™ surface coatings technology, which has numerous applications for binding in bio-analytical systems, such as microarrays.