Protein hydrolysates are essential in infant food formulations due to their high nutritional value and ease of digestion compared to native proteins. This study evaluates the impact of different enzymatic hydrolysis conditions on legume flours on in vitro protein and starch digestion to determine their suitability for infant foods. Chickpeas, lentils, and peas were ground and subjected to three hydrolysis methods: A) alcalase, B) heat treatment and mild acid before alcalase, and C) pepsin. Non-hydrolyzed flours served as controls. In vitro digestion simulated conditions for infants aged 6-12 months. Five grams of puree was tested with a 50:50 w/v food/fluid saliva ratio (oral phase,pH 7.0, 75 U/ml amylase); the ratio was 63:37 for the gastric phase (pH 5.3, 485 U/ml pepsin), and 62:38 for the intestinal phase (pH 6.6, 0.2 mg/ml pancreatin, 2.5 mg/ml bile salts). After digestion, the degree of protein hydrolysis (DH) was determined using the orthophthaldehyde method, and starch hydrolysis was measured using the dinitrosalicylic acid method. A samples showed the highest DH, at 35.1, 26.2, and 38.7 g/100g for chickpeas, lentils, and peas, respectively, which significantly higher values than were observed in the controls (22.0, 18.2, and 17.6 g/100g) p<0.05. B samples showed increased DH for chickpeas (24.9 g/100g) and peas (31.9 g/100g), but decreased DH for lentils (3.4 g/100g), p<0.05. C samples exhibited decreased DH in all samples. Starch hydrolysis increased under method A (63.1, 41.0, and 44.1 g/100g for chickpeas, lentils, and peas) compared to that in the controls (45.5, 31.6, 29.0 g/100g), p<0.05. Method B also increased starch hydrolysis (65.0, 63.1, and 65.7 g/100g for chickpeas, lentils, and peas), with p<0.05. Method C had varied effects: a decrease in chickpeas, an increase in lentils, and no difference in peas. Enzymatic hydrolysis with alcalase (method A) is the most effective method for enhancing legume protein and starch digestibility in infant food formulations. Hydrolyzed legume flours can be used to develop more nutritious, palatable infant foods and, and can be used to innovatively apply enzymatic hydrolysis to legumes.