Configuration for olefins production

What is claimed: 1. A system for converting whole crudes and other heavy hydrocarbon streams to produce olefins and/or aromatics, the system comprising: a first integrated separation device configured for separating a hydrocarbon feedstock comprising the whole crudes into at least a light boiling fraction, a medium boiling fraction, and a high boiling residue fraction; a first conditioning unit, comprising a resid hydrocracking system, configured for hydrocracking the high boiling residue fraction and pyrolysis oil to produce a hydrocracked effluent; a second integrated separation device configured for separating the hydrocracked effluent to produce a fuel oil fraction and a partially conditioned fraction; a second conditioning unit configured for destructively hydrogenating the medium boiling fraction and the partially conditioned fraction to produce a steam cracker feedstream; a steam cracker configured for converting hydrocarbons in the steam cracker feedstream into one or more light olefins and the pyrolysis oil. 2. The system of claim 1 , further comprising a flow line configured for feeding the light boiling fraction to the steam cracker. 3. The system of claim 1 , further comprising an integrated hydrotreater configured for converting the fuel oil fraction into an ultra-low sulfur fuel oil stream. 4. The system of claim 3 , wherein the integrated hydrotreater is a fixed bed hydrodesulfurization unit. 5. The system of claim 1 , wherein the second condition unit further comprises a common destructive hydrogenation unit wherein the medium boiling fraction and the partially conditioned fraction are destructively hydrogenated together. 6. The system of claim 1 , wherein the second condition unit further comprises: a first destructive hydrogenation unit configured for destructively hydrogenating the medium boiling fraction; a second destructive hydrogenation unit configured for destructively hydrogenating the partially conditioned fraction; and a mixing unit configured for combining the effluents from the first and second destructive hydrogenation units. 7. The system of claim 1 , wherein the residue hydrocracking reactor comprises a slurry bed reactor or an ebullated bed reactor. 8. The system of claim 1 , wherein the first conditioning unit further comprises: a first resid hydrocracking system configured for hydrocracking the high boiling residue fraction, producing a first resid hydrocracking system effluent; and a second resid hydrocracking system configured for hydrocracking the pyrolysis oil, producing a second resid hydrocracking system effluent; and a mixing unit configured for receiving the first resid hydrocracking system effluent and the second resid hydrocracking system effluent, producing the hydrocracked effluent. 9. The system of claim 8 , further comprising: a solvent deasphalting unit configured for receiving the fuel oil fraction and converting the fuel oil fraction into a deasphalted oil stream and a pitch stream; and a flow line for feeding the deasphalted oil stream to the second resid hydrocracking system. 10. The system of claim 1 , wherein the first integrated separation device comprises: a heater configured for receiving the whole crude and producing a pre-heated hydrocarbon feedstock; a separator configured for separating the pre-heated hydrocarbon feedstock into the light boiling fraction and an intermediate fraction, a recycle line configured recycling the intermediate fraction back to the heater, producing a heated intermediate fraction; a hot hydrogen stripper configured for receiving a hydrogen stream and separating the heated intermediate fraction into the medium boiling fraction and a hot hydrogen stripper bottoms fraction; and a heat exchanger configured for cooling the hot hydrogen stripper bottoms fraction via indirect heat exchange against the intermediate fraction producing the high boiling residue fraction.