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Am looking for a proof of non-convexity of the quotient of two matrix trace functions as given by $\frac{\operatorname{Tr}X^TAX}{\operatorname{Tr}X^TBX}$, when $TrX^TBX>0$ for two different positive semi-definite matrices , $A$ and $B$ such that $A \neq \alpha B$ for any scalar $\alpha$.

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    Thanks for making the point. I have made the necessary changes.2012-04-18
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    In fact not equal up to a constant ($A=\alpha B$ where $\alpha$ is a scalar).2012-04-18
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    That's right again, taking the inverse into consideration.2012-04-18
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    You also have a definition issue, because it is perfectly possible that for some $X$ your denominator is zero (for example if $B$ is not invertible and $X$ is the projection onto the kernel of $B$).2012-04-18
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    Updated and awaiting the proof.2012-04-19
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    You still have issues with your definition: if $B$ is not invertible, then the denominator will still be zero for many $X$.2012-04-19
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    Also, it's not clear to me if you are asking about the convexity of the function, or of the set of numbers.2012-04-19

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