Cooking condition of Tarakjuk (milk-rice porridge) was established based on gelatinization temperature using differential scanning calorimetry (DSC) of roasted Ilpum rice flour, which has highest enzyme-resistant starch (RS) content. Effect of cooking temperature and time on DSC characteristics, crystallity with X ray diffractogram, RS content, in vitro starch digestibility (IVSD), amino acid composition, and in vitro protein digestibility (IVPD) of Tarakjuk were determined. Tarakjuk was cooked at 50, 56.5, 64, and $69^{circ}C$ for various durations. Rice flour ingredient used was Ilpum, previously roasted at $185^{circ}C$ for 25 min. Tarakjuk cooked at 50 and $56.5^{circ}C$ showed two thermal transitions between $63.7-125.2^{circ}C$ as determined by DSC, corresponding to endotherms of starch gelatinization $(63.7-73.8^{circ}C)$ and melting of amylose-lipid complex (AM-lipid complex, $97.7-125.2^{circ}C$), whereas that cooked at 64 and $69^{circ}C$ showed only AM-lipid complex melting transition between $96.9-127.6^{circ}C$. As cooking temperature increased, RS content of Tarakjuk decreased, whereas IVSD increased. Total amino acid content was between 11,558-15,601mg/100g, depending on cooking condition used. Compared with conventionally made control, contents of essential amino acids, such as lysine and tryptophane, were higher at 50 and $56.5^{circ}C$, and IVPD showed higher increase. Results reveal degree of gelatinization in Tarakjuk with high RS content as well as low IVSD and high IVPD, which are important from physiological and nutritional point of view, can be produced by controlling cooking condition.